publications by Adam P. Wax.


Papers Published

  1. Rancu, A; Chen, CX; Price, H; Wax, A, Multiscale optical phase fluctuations link disorder strength and fractal dimension of cell structure., Biophysical Journal, vol. 122 no. 7 (April, 2023), pp. 1390-1399 [doi]  [abs].
  2. Wax, A, OE Welcomes Our First Patent Review, Optical Engineering, vol. 61 no. 12 (December, 2022), pp. 120101 [doi] .
  3. Chu, KK; Zhao, Y; Jelly, ET; Steelman, ZA; Crose, M; Cox, B; Ofori-Marfoh, Y; Moussa, L; Cirri, H; Watts, A; Shaheen, N; Wax, A, Esophageal OCT Imaging Using a Paddle Probe Externally Attached to Endoscope., Digestive Diseases and Sciences, vol. 67 no. 10 (October, 2022), pp. 4805-4812 [doi]  [abs].
  4. Wax, A, To Zoom or not to Zoom?, Optical Engineering, vol. 61 no. 6 (June, 2022) [doi] .
  5. Highland, T; Parker, SM; Price, H; Reynolds, M; He, S; Hoffman, BD; Wax, A, Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response, Optics Infobase Conference Papers (January, 2022)  [abs].
  6. Rancu, A; Chen, CX; Parker, S; Wax, A, Analysis of Disorder Strength Across Quantitative Phase Imaging Systems, Optics Infobase Conference Papers (January, 2022)  [abs].
  7. Thakoor, KA; Carter, A; Song, G; Wax, A; Moussa, O; Chen, RWS; Hendon, C; Sajda, P, Enhancing Portable OCT Image Quality via GANs for AI-Based Eye Disease Detection, Lecture Notes in Computer Science (Including Subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 13573 LNCS (January, 2022), pp. 155-167 [doi]  [abs].
  8. Wax, A, Senior Editor Appointments: Augustus Way Fountain III and Jessica DeGroote Nelson, Optical Engineering, vol. 61 no. 1 (January, 2022) [doi] .
  9. Jelly, ET; Zhao, Y; Chu, KK; Price, H; Crose, M; Steelman, ZA; Wax, A, Deep imaging with 1.3 µm dual-axis optical coherence tomography and an enhanced depth of focus., Biomedical Optics Express, vol. 12 no. 12 (December, 2021), pp. 7689-7702 [doi]  [abs].
  10. Chen, CX; Park, HS; Price, H; Wax, A, Automated Classification of Breast Cancer Cells Using High-Throughput Holographic Cytometry, Frontiers in Physics, vol. 9 (November, 2021) [doi]  [abs].
  11. Yang, Z; Soltanian-Zadeh, S; Chu, KK; Zhang, H; Moussa, L; Watts, AE; Shaheen, NJ; Wax, A; Farsiu, S, Connectivity-based deep learning approach for segmentation of the epithelium in in vivo human esophageal OCT images., Biomedical Optics Express, vol. 12 no. 10 (October, 2021), pp. 6326-6340 [doi]  [abs].
  12. Wax, A, Give credit where due: Authorship at OE, Optical Engineering, vol. 60 no. 10 (October, 2021) [doi] .
  13. Jelly, ET; Kwun, J; Schmitz, R; Farris, AB; Steelman, ZA; Sudan, DL; Knechtle, SJ; Wax, A, Optical coherence tomography of small intestine allograft biopsies using a handheld surgical probe., Journal of Biomedical Optics, vol. 26 no. 9 (September, 2021) [doi]  [abs].
  14. Park, H-S; Price, H; Ceballos, S; Chi, J-T; Wax, A, Single Cell Analysis of Stored Red Blood Cells Using Ultra-High Throughput Holographic Cytometry., Cells, vol. 10 no. 9 (September, 2021), pp. 2455 [doi]  [abs].
  15. Zhang, H; Kendall, WY; Jelly, ET; Wax, A, Deep learning classification of cervical dysplasia using depth-resolved angular light scattering profiles., Biomedical Optics Express, vol. 12 no. 8 (August, 2021), pp. 4997-5007 [doi]  [abs].
  16. Wax, A, On the Road Again: Returning to Conferences, Optical Engineering, vol. 60 no. 6 (June, 2021) [doi] .
  17. Wax, A, A New Chapter for Optical Engineering: Introducing Patent Reviews and a New Editor-in-Chief, Optical Engineering, vol. 60 no. 3 (March, 2021) [doi] .
  18. Chen, CX; Park, HS; Wax, A, Breast cell cancer progression characterization through holographic cytometry, Optics Infobase Conference Papers (January, 2021)  [abs].
  19. Parker, SM; Price, H; Reynolds, M; He, S; Hoffman, BD; Wax, A, Combined quantitative phase microscopy and förster resonance energy transfer for analyzing cell ion dynamics, Optics Infobase Conference Papers (January, 2021)  [abs].
  20. Chen, CX; Jelly, ET; Chu, KK; Wax, A, Indocyine Green (ICG) Enhanced Shortwave Infrared Fluorescence Imaging at Video Rate, Bio Optics: Design and Application (2021), pp. DM3A-5 .
  21. Kendall, WY; Bordas, J; Jelly, ET; Mirminachi, B; Joseph, A; Roper, J; Wax, A, Spectroscopic optical coherence tomography for early detection of colorectal cancer in a mouse model, Bio Optics: Design and Application (2021), pp. DF1A-4 .
  22. Song, G; Jelly, ET; Chu, K; Kendall, WY; Wax, A, A review of low-cost and portable optical coherence tomography, Progress in Biomedical Engineering (2021), IOP Publishing .
  23. Kendall, WY; Ho, D; Chu, K; Zinaman, M; Wieland, D; Moragne, K; Wax, A, Prospective detection of cervical dysplasia with scanning angle-resolved low coherence interferometry., Biomedical Optics Express, vol. 11 no. 9 (September, 2020), pp. 5197-5211 [doi]  [abs].
  24. Song, G; Steelman, ZA; Kendall, W; Park, HS; Wax, A, Spatial scanning of a sample with two-dimensional angle-resolved low-coherence interferometry for analysis of anisotropic scatterers., Biomedical Optics Express, vol. 11 no. 8 (August, 2020), pp. 4419-4430 [doi]  [abs].
  25. Zhang, H; Steelman, ZA; Ceballos, S; Chu, KK; Wax, A, Reconstruction of angle-resolved backscattering through a multimode fiber for cell nuclei and particle size determination., Apl Photonics, vol. 5 no. 7 (July, 2020), pp. 076105, AIP Publishing [doi]  [abs].
  26. Song, G; Steelman, ZA; Finkelstein, S; Yang, Z; Martin, L; Chu, KK; Farsiu, S; Arshavsky, VY; Wax, A, Multimodal Coherent Imaging of Retinal Biomarkers of Alzheimer's Disease in a Mouse Model., Scientific Reports, vol. 10 no. 1 (May, 2020), pp. 7912 [doi]  [abs].
  27. Kendall, W; Ho, D; Chu, K; Zinaman, M; Wieland, D; Wax, A, Clinical use of scanning angle-resolved low coherence interferometry for detection of cervical dysplasia, Optics Infobase Conference Papers, vol. Part F178-Translational-2020 (January, 2020)  [abs].
  28. Wax, A, Applications of low cost optical coherence tomography, Optics Infobase Conference Papers, vol. Part F180-OCT-2020 (January, 2020)  [abs].
  29. Zhang, H; Steelman, ZA; Wax, A, Determination of particle size from reconstructed angular backscattering through a single multimode fiber, Optics Infobase Conference Papers, vol. Part F179-OTS-2020 (January, 2020) [doi]  [abs].
  30. Song, G; Kendall, W; Steelman, ZA; Wax, A, Two-dimensional angle-resolved low-coherence interferometry with spatial scanning, Optics Infobase Conference Papers, vol. Part F178-Translational-2020 (January, 2020)  [abs].
  31. Jelly, ET; Kendall, W; Schmitz, R; Knechtle, SJ; Sudan, DL; Joseph, A; Roper, J; Kwun, J; Wax, A, Novel Implementations of Optical Coherence Tomography for Clinical Applications in the Lower Gastrointestinal Tract, Optical Coherence Tomography, vol. Part F180-OCT-2020 (2020), pp. OTu4E-4  [abs].
  32. Zhao, Y; Chu, KK; Jelly, ET; Wax, A, Origin of improved depth penetration in dual-axis optical coherence tomography: a Monte Carlo study (vol 12, e201800383, 2019), Journal of Biophotonics, vol. 13 no. 1 (2020), WILEY-V CH VERLAG GMBH POSTFACH 101161, 69451 WEINHEIM, GERMANY [doi] .
  33. Muñoz, A; Eldridge, WJ; Jakobsen, NM; Sørensen, H; Wax, A; Costa, M, Corrigendum: Cellular shear stiffness reflects progression of arsenic-induced transformation during G1., Carcinogenesis, vol. 40 no. 10 (October, 2019), pp. 1298 [doi] .
  34. Jelly, ET; Zhao, Y; Chu, KK; Crose, M; Wax, A, Expanded imaging volume for dual-axis optical coherence tomography, Frontiers in Optics Proceedings Frontiers in Optics + Laser Science Aps/Dls (September, 2019) [doi]  [abs].
  35. Eldridge, WJ; Ceballos, S; Shah, T; Park, HS; Steelman, ZA; Zauscher, S; Wax, A, Shear Modulus Measurement by Quantitative Phase Imaging and Correlation with Atomic Force Microscopy., Biophysical Journal, vol. 117 no. 4 (August, 2019), pp. 696-705 [doi]  [abs].
  36. Steelman, ZA; Ho, DS; Chu, KK; Wax, A, Light scattering methods for tissue diagnosis., Optica, vol. 6 no. 4 (April, 2019), pp. 479-489 [doi]  [abs].
  37. Zhang, H; Steelman, ZA; Ho, DS; Chu, KK; Wax, A, Angular range, sampling and noise considerations for inverse light scattering analysis of nuclear morphology., Journal of Biophotonics, vol. 12 no. 2 (February, 2019), pp. e201800258 [doi]  [abs].
  38. Zhao, Y; Chu, KK; Wax, A, Enhanced depth penetration by dual-axis optical coherence tomography, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 10867 (January, 2019) [doi]  [abs].
  39. Zhang, H; Steelman, ZA; Wax, A, Computational reconstruction of angular scattering distributions through an individual multimode fiber, Optics Infobase Conference Papers, vol. Part F168-BODA 2019 (January, 2019) [doi]  [abs].
  40. Jelly, ET; Wax, A, Arthroscopic Delivery of OCT Using Low-Cost OCT System for Assessment of Porcine Articular Cartilage Thickness, Bio Optics: Design and Application, vol. Part F168-BODA 2019 (2019), pp. DT2B-4 [doi]  [abs].
  41. Jelly, ET; Zhao, Y; Chu, KK; Crose, M; Wax, A, Expanded Imaging Volume for Dual-Axis Optical Coherence Tomography, Frontiers in Optics, vol. Part F144-FiO 2019 (2019), pp. FM3C-3 [doi]  [abs].
  42. Zhao, Y; Chu, KK; Jelly, ET; Wax, A, Origin of improved depth penetration in dual-axis optical coherence tomography: a Monte Carlo study, Journal of Biophotonics, vol. 12 no. 6 (2019), pp. e201800383-e201800383, WILEY-VCH Verlag GmbH & Co. KGaA Weinheim [doi]  [abs].
  43. Song, G; Chu, KK; Kim, S; Crose, M; Cox, B; Jelly, ET; Ulrich, JN; Wax, A, First clinical application of low-cost OCT, Translational Vision Science & Technology, vol. 8 no. 3 (2019), pp. 61-61, The Association for Research in Vision and Ophthalmology [doi]  [abs].
  44. Jelly, ET; Steelman, ZA; Wax, A, Optical coherence tomography through a rigid borescope applied to quantification of articular cartilage thickness in a porcine knee model, Optics Letters, vol. 44 no. 22 (2019), pp. 5590-5593, Optical Society of America [doi]  [abs].
  45. Park, HS; Eldridge, WJ; Yang, W-H; Crose, M; Ceballos, S; Roback, JD; Chi, J-TA; Wax, A, Quantitative phase imaging of erythrocytes under microfluidic constriction in a high refractive index medium reveals water content changes., Microsystems and Nanoengineering, vol. 5 (2019), pp. 63 [doi]  [abs].
  46. Eldridge, WJ; Hoballah, J; Wax, A, Molecular and biophysical analysis of apoptosis using a combined quantitative phase imaging and fluorescence resonance energy transfer microscope., Journal of Biophotonics, vol. 11 no. 12 (December, 2018), pp. e201800126 [doi]  [abs].
  47. Park, HS; Ceballos, S; Eldridge, WJ; Wax, A, Invited Article: Digital refocusing in quantitative phase imaging for flowing red blood cells., Apl Photonics, vol. 3 no. 11 (November, 2018), pp. 110802 [doi]  [abs].
  48. Wax, A, Oct promising as clear point-of-care solution, Biophotonics International, vol. 25 no. 6 (September, 2018), pp. 30-33 .
  49. Steelman, ZA; Eldridge, WJ; Wax, A, Response to Comment on "Is the nuclear refractive index lower than cytoplasm? Validation of phase measurements and implications for light scattering technologies": A Comment on "How a phase image of a cell with nucleus refractive index smaller than that of the cytoplasm should look like?", e201800033., Journal of Biophotonics, vol. 11 no. 6 (June, 2018), pp. e201800091 [doi]  [abs].
  50. Kim, S; Crose, M; Eldridge, WJ; Cox, B; Brown, WJ; Wax, A, Design and implementation of a low-cost, portable OCT system., Biomedical Optics Express, vol. 9 no. 3 (March, 2018), pp. 1232-1243 [doi]  [abs].
  51. Zhou, Y; Zhao, Y; Kim, S; Wax, A, Spectroscopic OCT: Towards an effective tool for distinguishing authentic and artificial Chinese freshwater pearls, Optical Materials Express, vol. 8 no. 3 (March, 2018), pp. 622-628, The Optical Society [doi]  [abs].
  52. Muñoz, A; Eldridge, WJ; Jakobsen, NM; Sørensen, H; Wax, A; Costa, M, Cellular shear stiffness reflects progression of arsenic-induced transformation during G1., Carcinogenesis, vol. 39 no. 2 (February, 2018), pp. 109-117 [doi]  [abs].
  53. Wax, A, Development of a low-cost, portable optical coherence tomography (OCT) system, Optics Infobase Conference Papers, vol. Part F96-AIO 2018 (January, 2018), OSA [doi]  [abs].
  54. Song, G; Kim, S; Crose, M; Cox, B; Brown, W; Wax, A, Design and implementation of a low-cost, portable OCT system, Optics Infobase Conference Papers, vol. Part F90-OTS 2018 (January, 2018), OSA [doi]  [abs].
  55. Ho, D; Chu, KK; Steelman, ZA; Wax, A, Scanning angle-resolved low coherence interferometry system for clinical detection of cervical dysplasia, Optics Infobase Conference Papers, vol. Part F91-TRANSLATIONAL 2018 (January, 2018), OSA [doi]  [abs].
  56. Zhao, Y; Chu, KK; Eldridge, WJ; Jelly, ET; Crose, M; Wax, A, Speckle Reduction in Optical Coherence Tomography at Video Rate, Optical Tomography and Spectroscopy, vol. Part F90-OTS 2018 (2018), pp. OF3D-3, OSA [doi]  [abs].
  57. Jelly, ET; Zhao, Y; Crose, M; Kim, S; Cox, B; Song, G; Wax, A, Adaptability and Performance of Low-Cost OCT System for use in Benchtop Optical Coherence Microscopy, Optical Tomography and Spectroscopy, vol. Part F91-TRANSLATIONAL 2018 (2018), pp. JW3A-32, OSA [doi]  [abs].
  58. Zhao, Y; Chu, KK; Eldridge, WJ; Jelly, ET; Crose, M; Wax, A, Real-time speckle reduction in optical coherence tomography using the dual window method, Biomedical Optics Express, vol. 9 no. 2 (2018), pp. 616-622, Optical Society of America [doi]  [abs].
  59. Steelman, ZA; Kim, S; Jelly, ET; Crose, M; Chu, KK; Wax, A, Comparison of imaging fiber bundles for coherence-domain imaging, Applied Optics, vol. 57 no. 6 (2018), pp. 1455-1462, Optical Society of America [doi]  [abs].
  60. Steelman, ZA; Eldridge, WJ; Weintraub, JB; Wax, A, Is the nuclear refractive index lower than cytoplasm? Validation of phase measurements and implications for light scattering technologies., Journal of Biophotonics, vol. 10 no. 12 (December, 2017), pp. 1714-1722 [doi]  [abs].
  61. Chowdhury, S; Eldridge, WJ; Wax, A; Izatt, JA, Structured illumination microscopy for dual-modality 3D sub-diffraction resolution fluorescence and refractive-index reconstruction., Biomedical Optics Express, vol. 8 no. 12 (December, 2017), pp. 5776-5793 [doi]  [abs].
  62. Steelman, ZA; Ho, D; Chu, KK; Wax, A, Scanning system for angle-resolved low-coherence interferometry., Optics Letters, vol. 42 no. 22 (November, 2017), pp. 4581-4584 [doi]  [abs].
  63. Minzioni, P; Osellame, R; Sada, C; Zhao, S; Omenetto, FG; Gylfason, KB; Haraldsson, T; Zhang, Y; Ozcan, A; Wax, A; Mugele, F; Schmidt, H; Testa, G; Bernini, R; Guck, J; Liberale, C; Berg-Sørensen, K; Chen, J; Pollnau, M; Xiong, S; Liu, AQ; Shiue, CC; Fan, SK; Erickson, D; Sinton, D, Roadmap for optofluidics, Journal of Optics (United Kingdom), vol. 19 no. 9 (August, 2017), pp. 093003-093003, IOP Publishing [doi]  [abs].
  64. Zhao, Y; Eldridge, WJ; Maher, JR; Kim, S; Crose, M; Ibrahim, M; Levinson, H; Wax, A, Dual-axis optical coherence tomography for deep tissue imaging., Opt Lett, vol. 42 no. 12 (June, 2017), pp. 2302-2305 [doi]  [abs].
  65. Chowdhury, S; Eldridge, WJ; Wax, A; Izatt, J, Refractive index tomography with structured illumination, Optica, vol. 4 no. 5 (May, 2017), pp. 537-545, The Optical Society [doi]  [abs].
  66. Chowdhury, S; Eldridge, WJ; Wax, A; Izatt, JA, Structured illumination multimodal 3D-resolved quantitative phase and fluorescence sub-diffraction microscopy., Biomedical Optics Express, vol. 8 no. 5 (May, 2017), pp. 2496-2518 [doi]  [abs].
  67. Ho, D; Drake, TK; Smith-McCune, KK; Darragh, TM; Hwang, LY; Wax, A, Feasibility of clinical detection of cervical dysplasia using angle-resolved low coherence interferometry measurements of depth-resolved nuclear morphology., International Journal of Cancer, vol. 140 no. 6 (March, 2017), pp. 1447-1456 [doi]  [abs].
  68. Eldridge, WJ; Steelman, ZA; Loomis, B; Wax, A, Optical Phase Measurements of Disorder Strength Link Microstructure to Cell Stiffness., Biophysical Journal, vol. 112 no. 4 (February, 2017), pp. 692-702 [doi]  [abs].
  69. Chuchuen, O; Maher, JR; Simons, MG; Peters, JJ; Wax, AP; Katz, DF, Label-Free Measurements of Tenofovir Diffusion Coefficients in a Microbicide Gel Using Raman Spectroscopy., Journal of Pharmaceutical Sciences, vol. 106 no. 2 (February, 2017), pp. 639-644 [doi]  [abs].
  70. Wax, A, Nanoscale phase imaging of live cells, Optics Infobase Conference Papers, vol. Part F66-FiO 2017 (January, 2017), OSA [doi]  [abs].
  71. Zhao, Y; Maher, JR; Ibrahim, MM; Chien, JS; Levinson, H; Wax, A, In vivo rat skin flap viability assessment using dual axis spectroscopic optical coherence tomography, Optics Infobase Conference Papers, vol. Part F62-BODA 2017 (January, 2017), OSA [doi]  [abs].
  72. Chuchuen, O; Maher, JR; Henderson, MH; Desoto, M; Rohan, LC; Wax, A; Katz, DF, Label-free analysis of tenofovir delivery to vaginal tissue using co-registered confocal Raman spectroscopy and optical coherence tomography., Plos One, vol. 12 no. 9 (January, 2017), pp. e0185633 [doi]  [abs].
  73. Wax, A, Advances in functional OCT, Laser Focus World, vol. 53 no. 1 (January, 2017), pp. 66-71, PENNWELL PUBL CO .
  74. Zhao, Y; Maher, JR; Ibrahim, MM; Chien, JS; Levinson, H; Wax, A, Deep imaging of absorption and scattering features by multispectral multiple scattering low coherence interferometry., Biomedical Optics Express, vol. 7 no. 10 (October, 2016), pp. 3916-3926 [doi]  [abs].
  75. Wax, A; Chu, K, Found in translation: Biophotonics from lab to clinic, Optics and Photonics News, vol. 27 no. 9 (September, 2016), pp. 34-41, The Optical Society [doi] .
  76. Graf, RN; Robles, FE; Wax, A, Assessing microscopic structural features using fourier-domain low coherence interferometry, in Handbook of Biomedical Optics (April, 2016), pp. 463-482 .
  77. Zhao, Y; Maher, JR; Wax, A, Toward the assessment of blood oxygenation using multispectral multiple scattering low coherence interferometry, Optics Infobase Conference Papers (April, 2016) [doi]  [abs].
  78. Kim, S; Crose, M; Kresty, LA; Wax, A, Guidance of angle-resolved low coherence interferometry using co-located optical coherence tomography on rat esophageal tissue, Optics Infobase Conference Papers (April, 2016) [doi]  [abs].
  79. Kim, S; Crose, M; Kresty, LA; Wax, A, Guidance of angle-resolved low coherence interferometry using co-located optical coherence tomography on rat esophageal tissue, Optics Infobase Conference Papers (April, 2016), pp. 3  [abs].
  80. Zhao, Y; Maher, JR; Wax, A, Toward the assessment of blood oxygenation using multispectral multiple scattering low coherence interferometry, Optics Infobase Conference Papers (April, 2016), pp. 3  [abs].
  81. Rinehart, MT; Park, HS; Walzer, KA; Chi, J-TA; Wax, A, Hemoglobin consumption by P. falciparum in individual erythrocytes imaged via quantitative phase spectroscopy., Scientific Reports, vol. 6 (April, 2016), pp. 24461 [doi]  [abs].
  82. Kim, S; Heflin, S; Kresty, LA; Halling, M; Perez, LN; Ho, D; Crose, M; Brown, W; Farsiu, S; Arshavsky, V; Wax, A, Analyzing spatial correlations in tissue using angle-resolved low coherence interferometry measurements guided by co-located optical coherence tomography., Biomedical Optics Express, vol. 7 no. 4 (April, 2016), pp. 1400-1414 [doi]  [abs].
  83. Eldridge, WJ; Sheinfeld, A; Rinehart, MT; Wax, A, Imaging deformation of adherent cells due to shear stress using quantitative phase imaging., Optics Letters, vol. 41 no. 2 (January, 2016), pp. 352-355 [doi]  [abs].
  84. Park, HS; Rinehart, MT; Walzer, KA; Chi, J-TA; Wax, A, Automated Detection of P. falciparum Using Machine Learning Algorithms with Quantitative Phase Images of Unstained Cells., Plos One, vol. 11 no. 9 (2016), pp. e0163045 [doi]  [abs].
  85. Zhao, Y; Maher, JR; Kim, J; Selim, MA; Levinson, H; Wax, A, Evaluation of burn severity in vivo in a mouse model using spectroscopic optical coherence tomography., Biomedical Optics Express, vol. 6 no. 9 (September, 2015), pp. 3339-3345 [doi]  [abs].
  86. Wax, A, Molecular contrast in interferometric imaging, Conference on Lasers and Electro Optics Europe Technical Digest, vol. 2015-August (August, 2015)  [abs].
  87. Sheinfeld, A; Eldridge, WJ; Wax, A, Quantitative phase imaging with molecular sensitivity using photoacoustic microscopy with a miniature ring transducer., Journal of Biomedical Optics, vol. 20 no. 8 (August, 2015), pp. 86002 [doi]  [abs].
  88. Ho, D; Drake, TK; Bentley, RC; Valea, FA; Wax, A, Evaluation of hybrid algorithm for analysis of scattered light using ex vivo nuclear morphology measurements of cervical epithelium., Biomedical Optics Express, vol. 6 no. 8 (August, 2015), pp. 2755-2765 [doi]  [abs].
  89. Maher, JR; Chuchuen, O; Henderson, MH; Kim, S; Rinehart, MT; Kashuba, ADM; Wax, A; Katz, DF, Co-localized confocal Raman spectroscopy and optical coherence tomography (CRS-OCT) for depth-resolved analyte detection in tissue., Biomedical Optics Express, vol. 6 no. 6 (June, 2015), pp. 2022-2035 [doi]  [abs].
  90. Rinehart, MT; Park, HS; Wax, A, Influence of defocus on quantitative analysis of microscopic objects and individual cells with digital holography., Biomedical Optics Express, vol. 6 no. 6 (June, 2015), pp. 2067-2075 [doi]  [abs].
  91. Kim, J; Brown, W; Maher, JR; Levinson, H; Wax, A, Functional optical coherence tomography: principles and progress., Phys Med Biol, vol. 60 no. 10 (May, 2015), pp. R211-R237 [doi]  [abs].
  92. Zhao, Y; Maher, JR; Levinson, H; Brown, WJ; Wax, A, In vivo burn severity assessment in a mouse model using spectroscopic optical coherence tomography, Bio Optics: Design and Application, Boda 2015 (April, 2015) [doi]  [abs].
  93. Maher, JR; Chuchuen, O; Kashuba, ADM; Katz, DF; Wax, A, Combined raman spectroscopy and optical coherence tomography for measuring analytes in targeted tissues, Optical Molecular Probes, Imaging and Drug Delivery, Omp 2015 (April, 2015) [doi]  [abs].
  94. Eldridge, WJ; Sheinfeld, A; Rinehart, MT; Wax, A, Detecting mechanically induced displacements in human cell cultures using quantitative phase imaging, Novel Techniques in Microscopy, Ntm 2015 (April, 2015) [doi]  [abs].
  95. Wax, A; Giacomelli, M; Robles, F, Elastic scattering spectroscopy and optical coherence tomography, in Optical Coherence Tomography: Technology and Applications, Second Edition (January, 2015), pp. 1207-1235, Springer International Publishing [doi]  [abs].
  96. Chowdhury, S; Eldridge, WJ; Wax, A; Izatt, JA, Spatial frequency-domain multiplexed microscopy for simultaneous, single-camera, one-shot, fluorescent, and quantitative-phase imaging, Optics Letters, vol. 40 no. 21 (2015), pp. 4839-4842, Optical Society of America [doi]  [abs].
  97. Brown, WJ; Kim, S; Wax, A, Noise characterization of supercontinuum sources for low-coherence interferometry applications., Journal of the Optical Society of America A, vol. 31 no. 12 (December, 2014), pp. 2703-2710 [doi]  [abs].
  98. Maher, JR; Jaedicke, V; Medina, M; Levinson, H; Selim, MA; Brown, WJ; Wax, A, In vivo analysis of burns in a mouse model using spectroscopic optical coherence tomography., Opt Lett, vol. 39 no. 19 (October, 2014), pp. 5594-5597 [doi]  [abs].
  99. Ho, D; Kim, S; Drake, TK; Eldridge, WJ; Wax, A, Wavelet transform fast inverse light scattering analysis for size determination of spherical scatterers., Biomedical Optics Express, vol. 5 no. 10 (October, 2014), pp. 3292-3304 [doi]  [abs].
  100. Eldridge, WJ; Meiri, A; Sheinfeld, A; Rinehart, MT; Wax, A, Fast wide-field photothermal and quantitative phase cell imaging with optical lock-in detection., Biomedical Optics Express, vol. 5 no. 8 (August, 2014), pp. 2517-2525 [doi]  [abs].
  101. Zhu, Y; Robles, FE; Terry, NG; Wax, A, Interferometric light scattering techniques for measuring nuclear morphology and detecting dysplasia, in Biomedical Photonics Handbook (July, 2014), pp. 653-681 .
  102. Steelman, ZA; Eldridge, WJ; Park, HS; Wax, A, Corruption of refractive index measurements of spheres using quantitative phase microscopy, Optics Infobase Conference Papers (July, 2014), OSA [doi]  [abs].
  103. Zhao, Y; Maher, JR; Wax, A, Toward the assessment of blood oxygenation using multispectral multiple scattering low coherence interferometry, Optics Infobase Conference Papers (July, 2014), OSA [doi]  [abs].
  104. Eldridge, WJ; Loomis, B; Wax, A, Linking cellular disorder strength and shear stiffness using quantitative phase imaging, Optics Infobase Conference Papers (July, 2014), OSA [doi]  [abs].
  105. Kim, S; Crose, M; Kresty, LA; Wax, A, Guidance of angle-resolved low coherence interferometry using co-located optical coherence tomography on rat esophageal tissue, Optics Infobase Conference Papers (July, 2014), OSA [doi]  [abs].
  106. Ho, D; Drake, T; Smith-McCune, KK; Darragh, TM; Hwang, LY; Wax, A, Clinical detection of cervical dysplasia using angle-resolved low coherence interferometry, Optics Infobase Conference Papers (July, 2014), OSA [doi]  [abs].
  107. Rinehart, MT; Jaedicke, V; Wax, A, Quantitative phase microscopy with off-axis optical coherence tomography., Optics Letters, vol. 39 no. 7 (April, 2014), pp. 1996-1999 [doi]  [abs].
  108. Vo-Dinh, T, Preface, in Biomedical Photonics Handbook, Second Edition: Biomedical Diagnostics (January, 2014), pp. ix-xi, CRC Press [doi]  [abs].
  109. Sun, Z; Shan, S; Sang, H; Zhou, J; Wang, Y; Yuan, W, Preface, Lecture Notes in Computer Science (Including Subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), vol. 8833 no. 1 (January, 2014), pp. V-VI, Springer International Publishing [doi] .
  110. Matthews, TE; Medina, M; Maher, JR; Levinson, H; Brown, WJ; Wax, A, Deep tissue imaging using spectroscopic analysis of multiply scattered light, Optica, vol. 1 no. 2 (January, 2014), pp. 105-111, The Optical Society [doi]  [abs].
  111. Rinehart, M; Grab, S; Rohan, L; Katz, D; Wax, A, Analysis of vaginal microbicide film hydration kinetics by quantitative imaging refractometry., Plos One, vol. 9 no. 4 (January, 2014), pp. e95005 [doi]  [abs].
  112. Maher, JR; Matthews, TE; Reid, AK; Katz, DF; Wax, A, Sensitivity of coded aperture Raman spectroscopy to analytes beneath turbid biological tissue and tissue-simulating phantoms., Journal of Biomedical Optics, vol. 19 no. 11 (January, 2014), pp. 117001 [doi]  [abs].
  113. Matthews, TE; Giacomelli, MG; Brown, WJ; Wax, A, Fourier domain multispectral multiple scattering low coherence interferometry., Applied Optics, vol. 52 no. 34 (December, 2013), pp. 8220-8228 [doi]  [abs].
  114. Yarmoska, SK; Kim, S; Giacomelli, MG; Wax, A, A calibration standard for two-dimensional angle-resolved low-coherence interferometry, Optical Trapping Applications, Ota 2013 (November, 2013), pp. JT2A.10  [abs].
  115. Yarmoska, SK; Kim, S; Giacomelli, MG; Wax, A, A calibration standard for two-dimensional angle-resolved low-coherence interferometry, Bio Optics: Design and Application, Boda 2013 (November, 2013), pp. JT2A.10  [abs].
  116. Zhu, Y; Rinehart, MT; Robles, FE; Wax, A, Polarization and Spectral Interferometric Techniques for Quantitative Phase Microscopy (August, 2013), pp. 218-310, Elsevier [doi] .
  117. Wax, A; Robles, FE, Molecular imaging true color spectroscopic (METRiCS) optical coherence tomography, in Medical Imaging: Technology and Applications (January, 2013), pp. 53-87, CRC Press [doi]  [abs].
  118. Wax, A, Wigner distribution: Friend to biophotonics, Optics Infobase Conference Papers (January, 2013) [doi]  [abs].
  119. Matthews, TE; Chuchuen, O; Katz, DF; Wax, A, Multimodal multiplex raman spectroscopy and optical coherence tomography of tissue for drug monitoring, Optical Molecular Probes, Imaging and Drug Delivery, Omp 2013 (January, 2013) [doi]  [abs].
  120. Wax, A, Wigner distribution: Friend to biophotonics, Optics Infobase Conference Papers (January, 2013)  [abs].
  121. Drake, TK; Shah, T; Peters, JJ; Wax, A; Katz, DF, Measuring dilution of microbicide gels with optical imaging., Plos One, vol. 8 no. 12 (January, 2013), pp. e82213 [doi]  [abs].
  122. Wax, A; Chalut, KJ, Nuclear morphology measurements with angle-resolved low coherence interferometry for application to cell biology and early cancer detection., Studies in Health Technology and Informatics, vol. 185 (January, 2013), pp. 129-151  [abs].
  123. Seekell, K; Lewis, S; Wilson, C; Grant, G; Wax, A, Feasibility of brain tumor delineation using immunolabeled gold nanorods, Optical Molecular Probes, Imaging and Drug Delivery, Omp 2013 (January, 2013), pp. MW1C.3 [doi]  [abs].
  124. Wax, A, Plasmonic nanoparticles as molecular contrast agents in interferometric imaging, Optical Molecular Probes, Imaging and Drug Delivery, Omp 2013 (January, 2013), pp. MW1C.2 [doi]  [abs].
  125. Yarmoska, SK; Kim, S; Giacomelli, MG; Wax, A, A calibration standard for two-dimensional angle-resolved low-coherence interferometry, Optical Molecular Probes, Imaging and Drug Delivery, Omp 2013 (January, 2013), pp. JT2A.10 [doi]  [abs].
  126. Yarmoska, SK; Kim, S; Matthews, TE; Wax, A, A scattering phantom for observing long range order with two-dimensional angle-resolved Low-Coherence Interferometry., Biomedical Optics Express, vol. 4 no. 9 (January, 2013), pp. 1742-1748 [doi]  [abs].
  127. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Three-dimensional molecular imaging with photothermal optical coherence tomography., Methods in Molecular Biology (Clifton, N.J.), vol. 1026 (January, 2013), pp. 85-92 [doi]  [abs].
  128. Wax, A; Meiri, A; Arumugam, S; Rinehart, MT, Comparative review of interferometric detection of plasmonic nanoparticles., Biomedical Optics Express, vol. 4 no. 10 (January, 2013), pp. 2166-2178 [doi]  [abs].
  129. Seekell, K; Lewis, S; Wilson, C; Li, S; Grant, G; Wax, A, Feasibility study of brain tumor delineation using immunolabeled gold nanorods., Biomedical Optics Express, vol. 4 no. 11 (2013), pp. 2284-2295 [doi]  [abs].
  130. Wax, A, Coherence imaging for early cancer detection, 2012 Conference on Lasers and Electro Optics, Cleo 2012 (December, 2012)  [abs].
  131. Kim, S; Rinehart, MT; Zhu, Y; Wax, A, Spectrally multiplexed photothermal OCT and novel detection methods, 2012 Conference on Lasers and Electro Optics, Cleo 2012 (December, 2012)  [abs].
  132. Kim, S; Rinehart, MT; Zhu, Y; Wax, A, Spectrally multiplexed photothermal OCT and novel detection methods, Cleo: Applications and Technology, Cleo at 2012 (December, 2012)  [abs].
  133. Kim, S; Rinehart, MT; Zhu, Y; Wax, A, Spectrally multiplexed photothermal OCT and novel detection methods, Optics Infobase Conference Papers (December, 2012)  [abs].
  134. Drake, TK; DeSoto, MG; Peters, JJ; Henderson, MH; Thiele, B; Bishop, TS; Murtha, AP; Katz, DF; Wax, A, In vivo optical imaging of human vaginal gel thickness distributions with a probe-based, dual-modality instrument., Journal of Biomedical Optics, vol. 17 no. 11 (November, 2012), pp. 116014 [doi]  [abs].
  135. Kim, S; Rinehart, MT; Park, H; Zhu, Y; Wax, A, Phase-sensitive OCT imaging of multiple nanoparticle species using spectrally multiplexed single pulse photothermal excitation., Biomedical Optics Express, vol. 3 no. 10 (October, 2012), pp. 2579-2586 [doi]  [abs].
  136. Li, YL; Seekell, K; Yuan, H; Robles, FE; Wax, A, Multispectral nanoparticle contrast agents for true-color spectroscopic optical coherence tomography., Biomedical Optics Express, vol. 3 no. 8 (August, 2012), pp. 1914-1923 [doi]  [abs].
  137. Giacomelli, MG; Wax, A, Imaging contrast and resolution in multiply scattered low coherence interferometry, Ieee Journal of Selected Topics in Quantum Electronics, vol. 18 no. 3 (June, 2012), pp. 1050-1058, Institute of Electrical and Electronics Engineers (IEEE) [doi]  [abs].
  138. Rinehart, M; Zhu, Y; Wax, A, Quantitative phase spectroscopy., Biomedical Optics Express, vol. 3 no. 5 (May, 2012), pp. 958-965 [doi]  [abs].
  139. Shaked, NT; Satterwhite, LL; Telen, MJ; Truskey, GA; Wax, A, Dynamic quantitative microscopy and nanoscopy of red blood cells in sickle cell disease, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 8227 (April, 2012), SPIE [doi]  [abs].
  140. Seekell, K; Price, H; Marinakos, S; Wax, A, Optimization of immunolabeled plasmonic nanoparticles for cell surface receptor analysis., Methods (San Diego, Calif.), vol. 56 no. 2 (February, 2012), pp. 310-316 [doi]  [abs].
  141. Zhu, Y; Terry, NG; Wax, A, Angle-resolved low-coherence interferometry: an optical biopsy technique for clinical detection of dysplasia in Barrett's esophagus., Expert Review of Gastroenterology & Hepatology, vol. 6 no. 1 (February, 2012), pp. 37-41 [doi]  [abs].
  142. Li, Y; Robles, FE; Seekell, K; Wax, AP, Assessing nanoparticle concentration using METRiCS optical coherence tomography, Biomedical Optics, Biomed 2012 (January, 2012) [doi]  [abs].
  143. Zhu, Y; Lyons, MR; West, AE; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast (SD-DIC) microscopy for measuring live cell dynamics, Biomedical Optics, Biomed 2012 (January, 2012) [doi]  [abs].
  144. Kim, S; Rinehart, MT; Zhu, Y; Wax, A, Spectrally multiplexed photothermal OCT and novel detection methods, Cleo: Applications and Technology, Cleo at 2012 (January, 2012) [doi]  [abs].
  145. Satterwhite, LL; Shaked, NT; Cyr, DD; Telen, MJ; Truskey, GA; Wax, A, Novel optical signature for sickle cell trait red blood cells, Frontiers in Optics, Fio 2012 (January, 2012) [doi]  [abs].
  146. Wax, A, Coherence imaging for early cancer detection, Cleo: Applications and Technology, Cleo at 2012 (January, 2012) [doi]  [abs].
  147. Matthews, TE; Wax, A, High-efficiency diffuse Raman spectroscopy through a fiber bundle., Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual International Conference, vol. 2012 (January, 2012), pp. 1181-1183 [doi]  [abs].
  148. Wax, A; Giacomelli, MG; Matthews, TE; Rinehart, MT; Robles, FE; Zhu, Y, Optical spectroscopy of biological cells, Advances in Optics and Photonics, vol. 4 no. 3 (January, 2012), pp. 322-378, The Optical Society [doi]  [abs].
  149. Seekell, K; Wilson, C; Price, H; Grant, G; Wax, A, Controlled synthesis of gold nanorods and application to brain tumor delineation, Optics Infobase Conference Papers (December, 2011)  [abs].
  150. Shaked, NT; Rinehart, MT; Wax, A, Quantitative phase microscopy of biological cell dynamics by wide-field digital interferometry, Springer Series in Surface Sciences, vol. 46 no. 1 (December, 2011), pp. 169-198 [doi]  [abs].
  151. Rinehart, MT; Drake, TK; Robles, FE; Rohan, LC; Katz, D; Wax, A, Time-resolved imaging refractometry of microbicidal films using quantitative phase microscopy., Journal of Biomedical Optics, vol. 16 no. 12 (December, 2011), pp. 120510 [doi]  [abs].
  152. Robles, FE; Wilson, C; Grant, G; Wax, A, Molecular imaging true-colour spectroscopic optical coherence tomography., Nature Photonics, vol. 5 no. 12 (December, 2011), pp. 744-747 [doi]  [abs].
  153. Robles, FE; Satterwhite, LL; Wax, A, Nonlinear phase dispersion spectroscopy., Optics Letters, vol. 36 no. 23 (December, 2011), pp. 4665-4667 [doi]  [abs].
  154. Seekell, K; Crow, MJ; Marinakos, S; Ostrander, J; Chilkoti, A; Wax, A, Hyperspectral molecular imaging of multiple receptors using immunolabeled plasmonic nanoparticles., Journal of Biomedical Optics, vol. 16 no. 11 (November, 2011), pp. 116003 [doi]  [abs].
  155. Crow, MJ; Seekell, K; Ostrander, JH; Wax, A, Monitoring of receptor dimerization using plasmonic coupling of gold nanoparticles., Acs Nano, vol. 5 no. 11 (November, 2011), pp. 8532-8540 [doi]  [abs].
  156. Terry, N; Zhu, Y; Thacker, JKM; Migaly, J; Guy, C; Mantyh, CR; Wax, A, Detection of intestinal dysplasia using angle-resolved low coherence interferometry., Journal of Biomedical Optics, vol. 16 no. 10 (October, 2011), pp. 106002 [doi]  [abs].
  157. Drake, TK; Desoto, MG; Peters, JJ; Henderson, MH; Murtha, AP; Katz, DF; Wax, A, Design and validation of a multiplexed low coherence interferometry instrument for in vivo clinical measurement of microbicide gel thickness distribution., Biomedical Optics Express, vol. 2 no. 10 (October, 2011), pp. 2850-2858 [doi]  [abs].
  158. Chalut, KJ; Kulangara, K; Wax, A; Leong, KW, Stem cell differentiation indicated by noninvasive photonic characterization and fractal analysis of subcellular architecture., Integrative Biology : Quantitative Biosciences From Nano to Macro, vol. 3 no. 8 (August, 2011), pp. 863-867 [doi]  [abs].
  159. Wax, A; Terry, NG; Dellon, ES; Shaheen, NJ, Angle-resolved low coherence interferometry for detection of dysplasia in Barrett's esophagus., Gastroenterology, vol. 141 no. 2 (August, 2011), pp. 443-447.e2 [doi] .
  160. Giacomelli, M; Wax, A, Coherent detection of diffusely scattered light for extending depth using multiply scattered low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7896 (May, 2011), SPIE [doi]  [abs].
  161. Rinehart, MT; Lacroix, J; Henderson, M; Katz, D; Wax, A, Simultaneous confocal fluorescence microscopy and optical coherence tomography for drug distribution and tissue integrity assessment, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7890 (May, 2011), SPIE [doi]  [abs].
  162. Shaked, NT; Satterwhite, LL; Bursac, N; Wax, A, Whole cell imaging based on wide-field interferometric phase microscopy and its application to cardiomyocytes, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7904 (April, 2011), SPIE [doi]  [abs].
  163. Crow, MJ; Seekell, K; Marinakos, S; Ostrander, J; Chilkoti, A; Wax, AP, Hyperspectral molecular imaging of multiple receptors using immunolabeled plasmonic nanoparticles, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7911 (April, 2011), SPIE [doi]  [abs].
  164. Robles, FE; Zhu, Y; Lee, J; Sharma, S; Wax, A, Fourier domain low coherence interferometry for detection of early colorectal cancer development in the AOM rat model, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7907 (March, 2011), SPIE [doi]  [abs].
  165. Giacomelli, M; Zhu, Y; Lee, J; Wax, A, Determining size, shape, and orientation of non-spherical scatterers using the fiber optic interferometric two-dimensional scattering (FITS) system, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7907 (March, 2011), SPIE [doi]  [abs].
  166. Shaked, NT; Satterwhite, LL; Telen, MJ; Truskey, GA; Wax, A, Quantitative microscopy and nanoscopy of sickle red blood cells performed by wide field digital interferometry., Journal of Biomedical Optics, vol. 16 no. 3 (March, 2011), pp. 030506 [doi]  [abs].
  167. Crow, MJ; Seekell, K; Wax, A, Polarization mapping of nanoparticle plasmonic coupling., Optics Letters, vol. 36 no. 5 (March, 2011), pp. 757-759 [doi]  [abs].
  168. Zhu, Y; Shaked, NT; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast microscopy., Optics Letters, vol. 36 no. 4 (February, 2011), pp. 430-432 [doi]  [abs].
  169. Giacomelli, MG; Wax, A, Imaging beyond the ballistic limit in coherence imaging using multiply scattered light., Optics Express, vol. 19 no. 5 (February, 2011), pp. 4268-4279 [doi]  [abs].
  170. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Photothermal optical coherence tomography for molecular imaging, Optics Infobase Conference Papers (January, 2011)  [abs].
  171. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics, Optics Infobase Conference Papers (January, 2011)  [abs].
  172. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy, Optics Infobase Conference Papers (January, 2011)  [abs].
  173. Zhu, Y; Shaked, NT; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast microscopy, Optics Infobase Conference Papers (January, 2011)  [abs].
  174. Zhu, Y; Shaked, NT; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast microscopy, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  175. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  176. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  177. Seekell, K; Wilson, C; Price, H; Grant, G; Wax, A, Controlled synthesis of gold nanorods and application to brain tumor delineation, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  178. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Photothermal optical coherence tomography for molecular imaging, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  179. Zhu, Y; Terry, NG; Woosley, JT; Shaheen, NJ; Wax, A, Design and validation of an angle-resolved low-coherence interferometry fiber probe for in vivo clinical measurements of depth-resolved nuclear morphology., Journal of Biomedical Optics, vol. 16 no. 1 (January, 2011), pp. 011003 [doi]  [abs].
  180. Terry, NG; Zhu, Y; Rinehart, MT; Brown, WJ; Gebhart, SC; Bright, S; Carretta, E; Ziefle, CG; Panjehpour, M; Galanko, J; Madanick, RD; Dellon, ES; Trembath, D; Bennett, A; Goldblum, JR; Overholt, BF; Woosley, JT; Shaheen, NJ; Wax, A, Detection of dysplasia in Barrett's esophagus with in vivo depth-resolved nuclear morphology measurements., Gastroenterology, vol. 140 no. 1 (January, 2011), pp. 42-50 [doi]  [abs].
  181. Zhu, Y; Terry, NG; Wax, A, Development of angle-resolved low coherence interferometry for clinical detection of dysplasia., Journal of Carcinogenesis, vol. 10 (January, 2011), pp. 19 [doi]  [abs].
  182. Wax, A; Chalut, KJ, Nuclear morphology measurements with angle-resolved low coherence interferometry for application to cell biology and early cancer detection., Analytical Cellular Pathology (Amsterdam), vol. 34 no. 5 (January, 2011), pp. 207-222 [doi]  [abs].
  183. Drake, T; Peters, J; Henderson, M; DeSoto, M; Katz, D; Wax, A, Multimodal optical detection of intravaginal microbicide gel coating thickness distribution, Optics Infobase Conference Papers (January, 2011)  [abs].
  184. Robles, FE; Wax, A, Spectroscopic optical coherence tomography for quantitative molecular imaging, Optics Infobase Conference Papers (January, 2011)  [abs].
  185. Shaked, NT; Wax, A, Quantitative analysis of three-dimensional biological cells using interferometric microscopy, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 8043 (January, 2011), SPIE [doi]  [abs].
  186. Crow, MJ; Marinakos, SM; Cook, JM; Chilkoti, A; Wax, A, Plasmonic flow cytometry by immunolabeled nanorods., Cytometry A, vol. 79 no. 1 (January, 2011), pp. 57-65 [doi]  [abs].
  187. Drake, T; Peters, J; Henderson, M; DeSoto, M; Katz, D; Wax, A, Multimodal optical detection of intravaginal microbicide gel coating thickness distribution, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  188. Robles, FE; Wax, A, Spectroscopic optical coherence tomography for quantitative molecular imaging, Optics Infobase Conference Papers (January, 2011) [doi]  [abs].
  189. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Photothermal optical coherence tomography for molecular imaging, Optics Infobase Conference Papers (2011) .
  190. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy, Optics Infobase Conference Papers (2011) .
  191. Zhu, Y; Shaked, NT; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast microscopy, Optics Infobase Conference Papers (2011) .
  192. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics, Optics Infobase Conference Papers (2011) .
  193. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Photothermal optical coherence tomography for molecular imaging, Optics Infobase Conference Papers (2011), Optical Society of America  [abs].
  194. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy, Optics Infobase Conference Papers (2011), Optical Society of America  [abs].
  195. Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A, Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics, Optics Infobase Conference Papers (2011), Optical Society of America  [abs].
  196. Zhu, Y; Shaked, NT; Satterwhite, LL; Wax, A, Spectral-domain differential interference contrast microscopy, Optics Infobase Conference Papers (2011), Optical Society of America  [abs].
  197. Drake, T; Peters, J; Henderson, M; DeSoto, M; Katz, D; Wax, A, Multimodal optical detection of intravaginal microbicide gel coating thickness distribution, Optics Infobase Conference Papers (2011)  [abs].
  198. Robles, FE; Wax, A, Spectroscopic optical coherence tomography for quantitative molecular imaging, Optics Infobase Conference Papers (2011)  [abs].
  199. Wax, A, Coherence imaging, Optics Infobase Conference Papers (December, 2010)  [abs].
  200. Shaked, NT; Wax, A, New directions in interferometric phase microscopy of biological cell dynamics, Optics Infobase Conference Papers (December, 2010)  [abs].
  201. Robles, FE; Wax, A, Separating the scattering and absorption coefficients using the real and imaginary parts of the refractive index with low-coherence interferometry., Optics Letters, vol. 35 no. 17 (September, 2010), pp. 2843-2845 [doi]  [abs].
  202. Shaked, NT; Satterwhite, LL; Bursac, N; Wax, A, Whole-cell-analysis of live cardiomyocytes using wide-field interferometric phase microscopy., Biomedical Optics Express, vol. 1 no. 2 (August, 2010), pp. 706-719 [doi]  [abs].
  203. Robles, FE; Zhu, Y; Lee, J; Sharma, S; Wax, A, Detection of early colorectal cancer development in the azoxymethane rat carcinogenesis model with Fourier domain low coherence interferometry., Biomedical Optics Express, vol. 1 no. 2 (August, 2010), pp. 736-745 [doi]  [abs].
  204. Rinehart, MT; Shaked, NT; Jenness, NJ; Clark, RL; Wax, A, Simultaneous two-wavelength transmission quantitative phase microscopy with a color camera., Optics Letters, vol. 35 no. 15 (August, 2010), pp. 2612-2614 [doi]  [abs].
  205. Giacomelli, M; Zhu, Y; Lee, J; Wax, A, Size and shape determination of spheroidal scatterers using two-dimensional angle resolved scattering., Optics Express, vol. 18 no. 14 (July, 2010), pp. 14616-14626 [doi]  [abs].
  206. Giacomelli, M; Zhu, Y; Lee, J; Wax, A, Size and shape determination of spheroidal scatterers using two-dimensional angle resolved scattering., Optics Express, vol. 18 no. 14 (July, 2010), pp. 14616-14626 [doi]  [abs].
  207. Giacomelli, MG; Chalut, KJ; Ostrander, JH; Wax, A, Review of the application of T-matrix calculations for determining the structure of cell nuclei with angle-resolved light scattering measurements, Ieee Journal of Selected Topics in Quantum Electronics, vol. 16 no. 4 (July, 2010), pp. 900-908, Institute of Electrical and Electronics Engineers (IEEE) [doi]  [abs].
  208. Robles, FE; Wax, A, Measuring structural features using a dual window method for light scattering spectroscopy and Fourier-domain low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7573 (May, 2010), SPIE [doi]  [abs].
  209. Terry, NG; Zhu, Y; Wax, A, Fourier-domain angle-resolved low coherence interferometry for clinical detection of dysplasia, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7573 (May, 2010), SPIE [doi]  [abs].
  210. Shaked, NT; Zhu, Y; Badie, N; Bursac, N; Wax, A, Reflective interferometric chamber for quantitative phase imaging of biological sample dynamics., Journal of Biomedical Optics, vol. 15 no. 3 (May, 2010), pp. 030503 [doi]  [abs].
  211. Shaked, NT; Newpher, TM; Ehlers, MD; Wax, A, Parallel on-axis holographic phase microscopy of biological cells and unicellular microorganism dynamics., Applied Optics, vol. 49 no. 15 (May, 2010), pp. 2872-2878 [doi]  [abs].
  212. Zhu, Y; Giacomelli, MG; Wax, A, Fiber-optic interferometric two-dimensional scattering-measurement system., Optics Letters, vol. 35 no. 10 (May, 2010), pp. 1641-1643 [doi]  [abs].
  213. Chalut, KJ; Kulangara, K; Giacomelli, MG; Wax, A; Leong, KW, Deformation of stem cell nuclei by nanotopographical cues., Soft Matter, vol. 6 no. 8 (April, 2010), pp. 1675-1681 [doi]  [abs].
  214. Robles, FE; Wax, A, Measuring morphological features using light-scattering spectroscopy and Fourier-domain low-coherence interferometry., Optics Letters, vol. 35 no. 3 (February, 2010), pp. 360-362 [doi]  [abs].
  215. Wax, A, Coherence imaging, Optics Infobase Conference Papers (January, 2010) [doi]  [abs].
  216. Shaked, NT; Finan, JD; Guilak, F; Wax, A, Quantitative phase microscopy of articular chondrocyte dynamics by wide-field digital interferometry., Journal of Biomedical Optics, vol. 15 no. 1 (January, 2010), pp. 010505 [doi]  [abs].
  217. Shaked, NT; Wax, A, Quantitative phase microscopy of live biological cell dynamics, Aip Conference Proceedings, vol. 1236 (January, 2010), pp. 283-288, AIP [doi]  [abs].
  218. Chowdhury, S; Robles, FE; Wax, A, Detecting Hemoglobin Concentration Using the Dual Window Method for Processing Spectroscopic Optical Coherence Tomography Signals, Digital Holography and Three Dimensional Imaging (2010), pp. JMA43-JMA43  [abs].
  219. Robles, FE; Chowdhury, S; Wax, A, Assessing hemoglobin concentration using spectroscopic optical coherence tomography for feasibility of tissue diagnostics, Biomedical Optics Express, vol. 1 no. 1 (2010), pp. 310-317, Optical Society of America [doi]  [abs].
  220. Giacomelli, M; Zhu, Y; Lee, J; Wax, A, Size and shape determination of spheroidal scatterers using two-dimensional angle resolved scattering, Optics Express, vol. 18 no. 14 (2010), pp. 14568-14576 [doi]  [abs].
  221. Finan, JD; Chalut, KJ; Wax, A; Guilak, F, Nonlinear osmotic properties of the cell nucleus, Proceedings of the Asme Summer Bioengineering Conference 2009, Sbc2009 no. PART A (December, 2009), pp. 93-94, ASME [doi] .
  222. Shaked, NT; Rinehart, MT; Wax, A, Dynamic quantitative phase microscopy of biological cells, Optics Infobase Conference Papers (December, 2009)  [abs].
  223. Rinehart, MT; Shaked, NT; Wax, A, Two-wavelength quantitative phase unwrapping of dynamic biological processes, Optics Infobase Conference Papers (December, 2009)  [abs].
  224. Wax, A; Sokolov, K, Molecular imaging and darkfield microspectroscopy of live cells using gold plasmonic nanoparticles, Laser & Photonics Reviews, vol. 3 no. 1-2 (November, 2009), pp. 146-158, WILEY [doi]  [abs].
  225. Rinehart, MT; Shaked, NT; Wax, A, Two-wavelength quantitative phase unwrapping of dynamic biological processes, 2009 Conference on Lasers and Electro Optics and 2009 Conference on Quantum Electronics and Laser Science Conference, Cleo/Qels 2009 (November, 2009)  [abs].
  226. Shaked, NT; Rinehart, MT; Wax, A, Dynamic quantitative phase microscopy of biological cells, 2009 Conference on Lasers and Electro Optics and 2009 Conference on Quantum Electronics and Laser Science Conference, Cleo/Qels 2009 (November, 2009)  [abs].
  227. Graf, RN; Robles, FE; Chen, X; Wax, A, Detecting precancerous lesions in the hamster cheek pouch using spectroscopic white-light optical coherence tomography to assess nuclear morphology via spectral oscillations., Journal of Biomedical Optics, vol. 14 no. 6 (November, 2009), pp. 064030 [doi]  [abs].
  228. Zhu, Y; Terry, NG; Wax, A, Scanning fiber angle-resolved low coherence interferometry., Optics Letters, vol. 34 no. 20 (October, 2009), pp. 3196-3198 [doi]  [abs].
  229. Shaked, NT; Zhu, Y; Rinehart, MT; Wax, A, Two-step-only phase-shifting interferometry with optimized detector bandwidth for microscopy of live cells., Optics Express, vol. 17 no. 18 (August, 2009), pp. 15585-15591 [doi]  [abs].
  230. Crow, M; Marinakos, S; Chilkoti, A; Wax, A, Simultaneous molecular imaging of EGFR and HER2 using hyperspectral darkfield microscopy and immunotargeted nanoparticles, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7192 (June, 2009), SPIE [doi]  [abs].
  231. Terry, NG; Zhu, Y; Rinehart, M; Wax, A, Optimizing Fourier-domain angle resolved low coherence interferometry for clinical use, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7187 (June, 2009), SPIE [doi]  [abs].
  232. Graf, RN; Robles, F; Chen, X; Wax, A, Detecting neoplastic development in the hamster cheek pouch using Fourier Domain Low Coherence Interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7187 (June, 2009), SPIE [doi]  [abs].
  233. Giacomelli, M; Chalut, K; Ostrander, J; Wax, A, T-matrix based inverse light scattering analysis using angle resolved low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7187 (June, 2009), SPIE [doi]  [abs].
  234. Drake, TK; Robles, F; DeSoto, M; Henderson, MH; Katz, DF; Wax, A, Development of an integrated endoscopic device for multiplexed low coherence interferometry (LCI) measurements of microbicide gel thickness, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7169 (June, 2009), SPIE [doi]  [abs].
  235. Robles, FE; Graf, RN; Wax, A, Dual window method for processing spectroscopic optical coherence tomography signals with high spectral and spatial resolution, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 7168 (May, 2009), SPIE [doi]  [abs].
  236. Nusz, GJ; Curry, AC; Marinakos, SM; Wax, A; Chilkoti, A, Rational selection of gold nanorod geometry for label-free plasmonic biosensors., Acs Nano, vol. 3 no. 4 (April, 2009), pp. 795-806 [doi]  [abs].
  237. Crow, MJ; Grant, G; Provenzale, JM; Wax, A, Molecular imaging and quantitative measurement of epidermal growth factor receptor expression in live cancer cells using immunolabeled gold nanoparticles., Ajr. American Journal of Roentgenology, vol. 192 no. 4 (April, 2009), pp. 1021-1028 [doi]  [abs].
  238. Drake, TK; Robles, FE; Wax, A, Multiplexed low coherence interferometry instrument for measuring microbicide gel thickness distribution., Applied Optics, vol. 48 no. 10 (April, 2009), pp. D14-D19 [doi]  [abs].
  239. Amoozegar, C; Giacomelli, MG; Keener, JD; Chalut, KJ; Wax, A, Experimental verification of T-matrix-based inverse light scattering analysis for assessing structure of spheroids as models of cell nuclei., Applied Optics, vol. 48 no. 10 (April, 2009), pp. D20-D25 [doi]  [abs].
  240. Robles, F; Graf, RN; Wax, A, Dual window method for processing spectroscopic optical coherence tomography signals with simultaneously high spectral and temporal resolution., Optics Express, vol. 17 no. 8 (April, 2009), pp. 6799-6812 [doi]  [abs].
  241. Wallace, MB; Wax, A; Roberts, DN; Graf, RN, Reflectance spectroscopy., Gastrointestinal Endoscopy Clinics of North America, vol. 19 no. 2 (April, 2009), pp. 233-242 [doi]  [abs].
  242. Finan, JD; Chalut, KJ; Wax, A; Guilak, F, Nonlinear osmotic properties of the cell nucleus., Annals of Biomedical Engineering, vol. 37 no. 3 (March, 2009), pp. 477-491 [doi]  [abs].
  243. Shaked, NT; Rinehart, MT; Wax, A, Dual-interference-channel quantitative-phase microscopy of live cell dynamics., Optics Letters, vol. 34 no. 6 (March, 2009), pp. 767-769 [doi]  [abs].
  244. Chalut, KJ; Ostrander, JH; Giacomelli, MG; Wax, A, Light scattering measurements of subcellular structure provide noninvasive early detection of chemotherapy-induced apoptosis., Cancer Research, vol. 69 no. 3 (February, 2009), pp. 1199-1204 [doi]  [abs].
  245. Kim, KH; Drake, TK; DeSoto, MG; Henderson, MH; Katz, DF; Wax, A, Development of an integrated multiplexed low coherence interferometer and fluorescence clinical endoscope, Optics Infobase Conference Papers (January, 2009) [doi]  [abs].
  246. Kim, KH; Drake, TK; DeSoto, MG; Henderson, MH; Katz, DF; Wax, A, Development of an integrated multiplexed low coherence interferometer and fluorescence clinical endoscope, Optics Infobase Conference Papers (January, 2009)  [abs].
  247. Giacomelli, MG; Chalut, KJ; Ostrander, JH; Wax, A, Application of the T-matrix method to determine the structure of spheroidal cell nuclei with angle-resolved light scattering., Optics Letters, vol. 33 no. 21 (November, 2008), pp. 2452-2454 [doi]  [abs].
  248. Skala, MC; Crow, MJ; Wax, A; Izatt, JA, Photothermal optical coherence tomography of epidermal growth factor receptor in live cells using immunotargeted gold nanospheres., Nano Letters, vol. 8 no. 10 (October, 2008), pp. 3461-3467, American Chemical Society (ACS) [doi]  [abs].
  249. Chalut, KJ; Giacomelli, MG; Wax, A, Application of Mie theory to assess structure of spheroidal scattering in backscattering geometries., Journal of the Optical Society of America A, vol. 25 no. 8 (August, 2008), pp. 1866-1874 [doi]  [abs].
  250. Graf, RN; Brown, WJ; Wax, A, Parallel frequency-domain optical coherence tomography scatter-mode imaging of the hamster cheek pouch using a thermal light source., Optics Letters, vol. 33 no. 12 (June, 2008), pp. 1285-1287 [doi]  [abs].
  251. Chalut, KJ; Chen, S; Finan, JD; Giacomelli, MG; Guilak, F; Leong, KW; Wax, A, Label-free, high-throughput measurements of dynamic changes in cell nuclei using angle-resolved low coherence interferometry., Biophysical Journal, vol. 94 no. 12 (June, 2008), pp. 4948-4956 [doi]  [abs].
  252. Chalut, KJ; Ostrander, JH; Wax, A, Detection of structural and functional changes in biological materials using angle-resolved low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6864 (April, 2008), SPIE [doi]  [abs].
  253. Graf, RN; Chen, X; Brown, W; Wax, A, Measuring neoplastic transformation in the hamster cheek pouch using Fourier domain low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6864 (April, 2008), SPIE [doi]  [abs].
  254. Terry, NG; Zhu, Y; Brown, WJ; Wax, A, Development of a clinical Fourier-domain angle resolved low coherence interferometry system for in vivo measurements, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6864 (April, 2008), SPIE [doi]  [abs].
  255. Nusz, GJ; Marinakos, SM; Curry, AC; Dahlin, A; Höök, F; Wax, A; Chilkoti, A, Label-free plasmonic detection of biomolecular binding by a single gold nanorod., Analytical Chemistry, vol. 80 no. 4 (February, 2008), pp. 984-989 [doi]  [abs].
  256. Rinehart, M; Giacomelli, M; Chalut, K; Wax, A, Quantitative phase microscopy with multi-wavelength unwrapping and tomographic 3d reconstruction, Biomedical Optics, Biomed 2008 (January, 2008) [doi]  [abs].
  257. Wax, A, Analyzing light scattering from aspherical nuclei for cell biology and clinical applications, Optics Infobase Conference Papers (January, 2008) [doi]  [abs].
  258. Drake, T; Robles, F; Wax, A, Multiplexed low-coherence interferometry instrument for measuring microbicide gel thickness distribution, Biomedical Optics, Biomed 2008 (January, 2008), pp. BMD81 [doi]  [abs].
  259. Amoozegar, C; Giacomelli, MG; Chalut, KJ; Wax, A, Modeling advances for measuring spheroidal geometries using angle-resolved low coherence interferometry, Biomedical Optics, Biomed 2008 (January, 2008), pp. BTuF7 [doi]  [abs].
  260. Zhu, Y; Terry, NG; Brown, WJ; Wax, A, Design and verification of an endoscopic pre-cancer detection system based on angle-resolved low coherence interferometry (a/LCI), Biomedical Optics, Biomed 2008 (January, 2008), pp. BTuC8 [doi]  [abs].
  261. Giacomelli, M; Chalut, K; Wax, A, A comparison of mie theory and the t-matrix method for estimating the size of cell nuclei, Biomedical Optics, Biomed 2008 (January, 2008), pp. BTuF6 [doi]  [abs].
  262. Wax, A, Darkfield microspectroscopy: From single nanoparticle biosensing to live cell molecular imaging, Biomedical Optics, Biomed 2008 (January, 2008), pp. BSuA2 [doi]  [abs].
  263. Crow, M; Wax, A, Development of a novel hyperspectral darkfield microscopy system for characterization of nanoparticle sensors, Biomedical Optics, Biomed 2008 (January, 2008), pp. BSuE6 [doi]  [abs].
  264. Wax, A; Pyhtila, JW, In situ nuclear morphology measurements using light scattering as biomarkers of neoplastic change in animal models of carcinogenesis., Disease Markers, vol. 25 no. 6 (January, 2008), pp. 291-301 [doi]  [abs].
  265. Brown, WJ; Pyhtila, JW; Terry, NG; Chalut, KJ; D'Amico, TA; Sporn, TA; Obando, JV; Wax, A, Review and recent development of angle-resolved low-coherence interferometry for detection of precancerous cells in human esophageal epithelium, Ieee Journal of Selected Topics in Quantum Electronics, vol. 14 no. 1 (January, 2008), pp. 88-96, Institute of Electrical and Electronics Engineers (IEEE) [doi]  [abs].
  266. Rinehart, M; Giacomelli, M; Chalut, K; Wax, A, Quantitative phase microscopy with multi-wavelength unwrapping and tomographic 3D reconstruction, Optics Infobase Conference Papers (January, 2008)  [abs].
  267. Rinehart, M; Giacomelli, M; Chalut, K; Wax, A, Quantitative phase microscopy with multi-wavelength unwrapping and tomographic 3D reconstruction, Optics Infobase Conference Papers (January, 2008)  [abs].
  268. Curry, AC; Crow, M; Wax, A, Molecular imaging of epidermal growth factor receptor in live cells with refractive index sensitivity using dark-field microspectroscopy and immunotargeted nanoparticles., Journal of Biomedical Optics, vol. 13 no. 1 (January, 2008), pp. 014022 [doi]  [abs].
  269. Wax, A, Analyzing light scattering from aspherical nuclei for cell biology and clinical applications, Optics Infobase Conference Papers (January, 2008)  [abs].
  270. Chalut, K; Brown, W; Terry, N; Wax, A, Quantitative phase microscopy with asynchronous digital holography system, Conference on Lasers and Electro Optics, 2007, Cleo 2007 (December, 2007), IEEE [doi]  [abs].
  271. Crow, M; Curry, A; Wax, A, Molecular imaging of EGFR expression in live cancer cells using immunotargeted nanoparticles, Conference on Lasers and Electro Optics, 2007, Cleo 2007 (December, 2007), IEEE [doi]  [abs].
  272. Wax, A; Backman, V, Progress in Biomedical Optics and Imaging - Proceedings of SPIE: Introduction, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6446 (August, 2007) .
  273. Graf, RN; Wax, A, Development of a pre-clinical Fourier domain low coherence interferometry system, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6446 (August, 2007), SPIE [doi]  [abs].
  274. Pyhtila, JW; Wax, A, Development of a portable frequency-domain angle-resolved low coherence interferometry system, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 6446 (August, 2007), SPIE [doi]  [abs].
  275. Graf, RN; Wax, A, Temporal coherence and time-frequency distributions in spectroscopic optical coherence tomography., Journal of the Optical Society of America A, vol. 24 no. 8 (August, 2007), pp. 2186-2195 [doi]  [abs].
  276. Keener, JD; Chalut, KJ; Pyhtila, JW; Wax, A, Application of Mie theory to determine the structure of spheroidal scatterers in biological materials., Optics Letters, vol. 32 no. 10 (May, 2007), pp. 1326-1328 [doi]  [abs].
  277. Curry, A; Nusz, G; Chilkoti, A; Wax, A, Analysis of total uncertainty in spectral peak measurements for plasmonic nanoparticle-based biosensors., Applied Optics, vol. 46 no. 10 (April, 2007), pp. 1931-1939 [doi]  [abs].
  278. Pyhtila, JW; Wax, A, Polarization effects on scatterer sizing accuracy analyzed with frequency-domain angle-resolved low-coherence interferometry., Applied Optics, vol. 46 no. 10 (April, 2007), pp. 1735-1741 [doi]  [abs].
  279. K. J. Chalut and W. J. Brown and A. Wax, Quantitative phase microscopy with asynchronous digital holography, Optics Express, vol. 15 no. 6 (March, 2007), pp. 3047 -- 3052  [abs].
  280. Pyhtila, JW; Chalut, KJ; Boyer, JD; Keener, J; D'Amico, T; Gottfried, M; Gress, F; Wax, A, In situ detection of nuclear atypia in Barrett's esophagus by using angle-resolved low-coherence interferometry., Gastrointestinal Endoscopy, vol. 65 no. 3 (March, 2007), pp. 487-491 [doi]  [abs].
  281. Chalut, KJ; Brown, WJ; Wax, A, Quantitative phase microscopy with asynchronous digital holography., Optics Express, vol. 15 no. 6 (March, 2007), pp. 3047-3052 [OE.15.003047], [doi]  [abs].
  282. K. J. Chalut and L. A. Kresty and J. W. Pyhtila and R. Nines and M. Baird and V. E. Steele and A. Wax, In situ assessment of intraepithelial neoplasia in hamster trachea epithelium using angle-resolved low-coherence interferometry, Cancer Epidemiology Biomarkers & Prevention, vol. 16 no. 2 (February, 2007), pp. 223 -- 227  [abs].
  283. Chalut, KJ; Kresty, LA; Pyhtila, JW; Nines, R; Baird, M; Steele, VE; Wax, A, In situ assessment of intraepithelial neoplasia in hamster trachea epithelium using angle-resolved low-coherence interferometry., Cancer Epidemiology, Biomarkers & Prevention : a Publication of the American Association for Cancer Research, Cosponsored by the American Society of Preventive Oncology, vol. 16 no. 2 (February, 2007), pp. 223-227 [doi]  [abs].
  284. Wax, A; Crow, M, Molecular imaging and microspectroscopy of live cells using immunotargeted nanoparticles, Optics Infobase Conference Papers (January, 2007) [doi]  [abs].
  285. Wax, A; Crow, M, Molecular imaging and microspectroscopy of live cells using immunotargeted nanoparticles, Optics Infobase Conference Papers (January, 2007)  [abs].
  286. Pyhtila J. W., K. J. Chalut, J. D. Boyer, J. Keener, T. A. D’Amico, M. A. Gottfried, F. Gress, and A. Wax, In situ detection of nuclear atypia in Barrett’s esophagus using angle-resolved low coherence interferometry, Gastrointestinal Endoscopy, vol. 65 (2007), pp. 487-491 .
  287. Crow, M; Curry, A; Wax, A, Molecular imaging of EGFR expression in live cancer cells using immunotargeted nanoparticles, Optics Infobase Conference Papers (2007)  [abs].
  288. Chalut, K; Brown, W; Terry, N; Wax, A, Quantitative phase microscopy with asynchronous digital holography system, Optics Infobase Conference Papers (2007)  [abs].
  289. Kelloff, GJ; Sullivan, DC; Baker, H; Clarke, LP; Nordstrom, R; Tatum, JL; Dorfman, GS; Jacobs, P; Berg, CD; Pomper, MG; Birrer, MJ; Tempero, M; Higley, HR; Petty, BG; Sigman, CC; Maley, C; Sharma, P; Wax, A; Ginsberg, GG; Dannenberg, AJ; Hawk, ET; Messing, EM; Grossman, HB; Harisinghani, M; Bigio, IJ; Griebel, D; Henson, DE; Fabian, CJ; Ferrara, K; Fantini, S; Schnall, MD; Zujewski, JA; Hayes, W; Klein, EA; DeMarzo, A; Ocak, I; Ketterling, JA; Tempany, C; Shtern, F; Parnes, HL; Gomez, J; Srivastava, S; Szabo, E; Lam, S; Seibel, EJ; Massion, P; McLennan, G; Cleary, K; Suh, R; Burt, RW; Pfeiffer, RM; Hoffman, JM; Roy, HK; Wang, T; Limburg, PJ; El-Deiry, WS; Papadimitrakopoulou, V; Hittelman, WN; MacAulay, C; Veltri, RW; Solomon, D; Jeronimo, J; Richards-Kortum, R; Johnson, KA; Viner, JL; Stratton, SP; Rajadhyaksha, M; Dhawan, A; Workshop Program Committee,, Workshop on imaging science development for cancer prevention and preemption., Cancer Biomarkers : Section a of Disease Markers, vol. 3 no. 1 (2007), pp. 1-33 [doi]  [abs].
  290. Hunter, M; Backman, V; Popescu, G; Kalashnikov, M; Boone, CW; Wax, A; Gopal, V; Badizadegan, K; Stoner, GD; Feld, MS, Tissue self-affinity and polarized light scattering in the born approximation: a new model for precancer detection., Physical Review Letters, vol. 97 no. 13 (September, 2006), pp. 138102 [doi]  [abs].
  291. A. Curry and W. L. Hwang and A. Wax, Epi-illumination through the microscope objective applied to darkfield imaging and microspectroscopy of nanoparticle interaction with cells in culture, Optics Express, vol. 14 no. 14 (July, 2006), pp. 6535 -- 6542  [abs].
  292. Curry, A; Hwang, WL; Wax, A, Epi-illumination through the microscope objective applied to darkfield imaging and microspectroscopy of nanoparticle interaction with cells in culture., Optics Express, vol. 14 no. 14 (July, 2006), pp. 6535-6542 [doi]  [abs].
  293. Pyhtila, JW; Ma, H; Simnick, AJ; Chilkoti, A; Wax, A, Analysis of long range correlations due to coherent light scattering from in-vitro cell arrays using angle-resolved low coherence interferometry., Journal of Biomedical Optics, vol. 11 no. 3 (May, 2006), pp. 34022 [doi]  [abs].
  294. J. W. Pyhtila and J. D. Boyer and K. J. Chalut and A. Wax, Fourier-domain angle-resolved low coherence interferometry through an endoscopic fiber bundle for light-scattering spectroscopy, Optics Letters, vol. 31 no. 6 (March, 2006), pp. 772 -- 774  [abs].
  295. Braun, KE; Boyer, JD; Henderson, MH; Katz, DF; Wax, A, Label-free measurement of microbicidal gel thickness using low-coherence interferometry., Journal of Biomedical Optics, vol. 11 no. 2 (March, 2006), pp. 020504 [doi]  [abs].
  296. Pyhtila, JW; Boyer, JD; Chalut, KJ; Wax, A, Fourier-domain angle-resolved low coherence interferometry through an endoscopic fiber bundle for light-scattering spectroscopy., Optics Letters, vol. 31 no. 6 (March, 2006), pp. 772-774 [OL.31.000772], [doi]  [abs].
  297. Chalut, KJ; Pyhtila, JW; Wax, A, Improved design of a heterodyne angle-resolved low coherence interferometry system used for new chemoprevention and carcinogenesis studies, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  298. Curry, A; Wax, A, Epi-illumination darkfield through a microscope objective for imaging and spectral analysis of nanoparticle interaction with cells in culture, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  299. Braun, KE; Wax, A, Improved simulations for measuring microbicidal gel thickness using low-coherence interferometry, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  300. Braun, KE; Pyhtila, JW; Wax, A, Quantitative characterization of spectrograph entrance slit width on roll-off of fourier domain optical coherence tomography signals, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  301. Curry, AC; Wax, A, Sensitivity analysis of detecting plasmon resonance spectral shifts for nanoparticle based biosensors, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  302. Pyhtila, JW; Boyer, JD; Chalut, KJ; Wax, A, Endoscopic fourier-domain angle-resolved low coherence interferometry for assessing nuclear morphology in human epithelial tissues, Optics Infobase Conference Papers (January, 2006) [doi]  [abs].
  303. Chalut, KJ; Pyhtila, JW; Wax, A, Improved design of a heterodyne angle-resolved low coherence interferometry system used for new chemoprevention and carcinogenesis studies, Optics Infobase Conference Papers (January, 2006)  [abs].
  304. Braun, KE; Wax, A, Improved simulations for measuring microbicidal gel thickness using low-coherence interferometry, Optics Infobase Conference Papers (January, 2006)  [abs].
  305. Boyer, JD; Pyhtila, JW; Wax, A, Multi-layer scattering tissue phantom for assessing angle-resolved low coherence interferometryprecancer diagnostic technique, Optics Infobase Conference Papers (January, 2006)  [abs].
  306. Braun, KE; Pyhtila, JW; Wax, A, Quantitative characterization of spectrograph entrance slit width on roll-off of fourier domain optical coherence tomography signals, Optics Infobase Conference Papers (January, 2006)  [abs].
  307. Curry, AC; Wax, A, Sensitivity analysis of detecting plasmon resonance spectral shifts for nanoparticle based biosensors, Optics Infobase Conference Papers (January, 2006)  [abs].
  308. Curry, A; Nusz, G; Chilkoti, A; Wax, A, Measurement system for the high-throughput characterization of metal nanoparticles for biosensors, Optics Infobase Conference Papers (January, 2006)  [abs].
  309. Pyhtila, JW; Boyer, JD; Chalut, KJ; Wax, A, Endoscopic fourier-domain angle-resolved low coherence interferometry for assessing nuclear morphology in human epithelial tissues, Optics Infobase Conference Papers (January, 2006)  [abs].
  310. Curry, A; Wax, A, Epi-illumination darkfield through a microscope objective for imaging and spectral analysis of nanoparticle interaction with cells in culture, Optics Infobase Conference Papers (January, 2006)  [abs].
  311. Chou, DR; Wax, AP, Optical scattering of confocal laser scanning reflectance microscopy in turbid media, Optics Infobase Conference Papers (January, 2006)  [abs].
  312. Curry, Adam and Hwang, William L. and Wax, Adam, Epi-illumination through the microscope objective applied to darkfield imaging and microspectroscopy of nanoparticle interaction with cells in culture, Optics Express, vol. 14 no. 14 (2006), pp. 6535 - 6542 [OE.14.006535]  [abs].
  313. Pyhtila, J.W. and Hongwei Ma and Simnick, A.J. and Chilkoti, A. and Wax, A., Analysis of long range correlations due to coherent light scattering from in-vitro cell arrays using angle-resolved low coherence interferometry, J. Biomed. Opt. (USA), vol. 11 no. 3 (2006), pp. 34022 - 1 [1.2209561]  [abs].
  314. Braun, K.E. and Boyer, J.D. and Henderson, M.H. and Katz, D.F. and Wax, A., Label-free measurement of microbicidal gel thickness using low-coherence interferometry, J. Biomed. Opt. (USA), vol. 11 no. 2 (2006), pp. 20504 - 1 [1.2192767]  [abs].
  315. Chov, DR; Wax, AP, Optical scattering of confocal laser scanning reflectance microscopy in turbid media, 2005 Conference on Lasers and Electro Optics, Cleo, vol. 3 (December, 2005), pp. 1578-1580  [abs].
  316. Wax, A; Pyhtila, JW; Graf, RN; Nines, R; Boone, CW; Dasari, RR; Feld, MS; Steele, VE; Stoner, GD, Prospective grading of neoplastic change in rat esophagus epithelium using angle-resolved low-coherence interferometry., Journal of Biomedical Optics, vol. 10 no. 5 (September, 2005), pp. 051604 [1.2102767], [doi]  [abs].
  317. Graf, RN; Wax, A, Nuclear morphology measurements using Fourier domain low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 5690 no. 1 (July, 2005), pp. 460-467, SPIE [12.592227], [doi]  [abs].
  318. Pyhtila, JW; Wax, A, Rapid angle-resolved low coherence interferometry measurements, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 5690 no. 1 (July, 2005), pp. 468-474, SPIE [12.592012], [doi]  [abs].
  319. Pyhtila, JW; Wax, A, Coherent light scattering by in vitro cell arrays observed with angle-resolved low coherence interferometry, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 5690 no. 1 (July, 2005), pp. 334-341, SPIE [12.592230], [doi]  [abs].
  320. Vo-Dinh, T; Grundfest, WS; Benaron, DA; Cohn, GE, Progress in Biomedical Optics and Imaging - Proceedings of SPIE: Introduction, Progress in Biomedical Optics and Imaging Proceedings of Spie, vol. 5692 (July, 2005), pp. ix .
  321. Graf, RN; Wax, A, Nuclear morphology measurements using Fourier domain low coherence interferometry., Optics Express, vol. 13 no. 12 (June, 2005), pp. 4693-4698 [doi]  [abs].
  322. Curry, A; Nusz, G; Chilkoti, A; Wax, A, Substrate effect on refractive index dependence of plasmon resonance for individual silver nanoparticles observed using darkfield microspectroscopy., Optics Express, vol. 13 no. 7 (April, 2005), pp. 2668-2677 [doi]  [abs].
  323. Chou, DR; Bower, BA; Wax, A, Low-cost, scalable laser scanning module for real-time reflectance and fluorescence confocal microscopy., Applied Optics, vol. 44 no. 11 (April, 2005), pp. 2013-2018 [AO.44.002013], [doi]  [abs].
  324. Pyhtila, JW; Wax, A, Improved interferometric detection of scattered light with a 4f imaging system., Applied Optics, vol. 44 no. 10 (April, 2005), pp. 1785-1791 [AO.44.001785], [doi]  [abs].
  325. Ahn, A; Yang, C; Wax, A; Popescu, G; Fang-Yen, C; Badizadegan, K; Dasari, RR; Feld, MS, Harmonic phase-dispersion microscope with a Mach-Zehnder interferometer., Applied Optics, vol. 44 no. 7 (March, 2005), pp. 1188-1190 [doi]  [abs].
  326. Wax, A, Low-coherence light-scattering calculations for polydisperse size distributions., Journal of the Optical Society of America A, vol. 22 no. 2 (February, 2005), pp. 256-261 [doi]  [abs].
  327. Curry, A; Nusz, G; Chilkoti, A; Wax, A, Measurement system for the high-throughput characterization of metal nanoparticles for biosensors, Optics Infobase Conference Papers (January, 2005)  [abs].
  328. Chou, DR; Wax, AP, Optical scattering of confocal laser scanning reflectance microscopy in turbid media, Optics Infobase Conference Papers (January, 2005)  [abs].
  329. Curry, A; Nusz, G; Chilkoti, A; Wax, A, Measurement system for the high-throughput characterization of metal nanoparticles for biosensors, 2005 Conference on Lasers and Electro Optics, Cleo, vol. 3 (January, 2005), pp. 2160-2162 [doi]  [abs].
  330. Graf, Robert N. and Wax, Adam, Nuclear morphology measurements using Fourier domain low coherence interferometry, Optics Express, vol. 13 no. 12 (2005), pp. 4693 - 4698  [abs].
  331. Curry, Adam and Nusz, Greg and Chilkoti, Ashutosh and Wax, Adam, Measurement system for the high-throughput characterization of metal nanoparticles for biosensors, 2005 Conference on Lasers and Electro-Optics, CLEO, vol. 3 (2005), pp. 2160 - 2162  [abs].
  332. Wax, Adam, Low-coherence light-scattering calculations for polydisperse size distributions, Journal of the Optical Society of America A: Optics and Image Science, and Vision, vol. 22 no. 2 (2005), pp. 256 - 261 [JOSAA.22.000256]  [abs].
  333. Pyhtila, JW; Wax, A, Rapid, depth-resolved light scattering measurements using Fourier domain, angle-resolved low coherence interferometry., Optics Express, vol. 12 no. 25 (December, 2004), pp. 6178-6183 [doi]  [abs].
  334. Iwai, H; Fang-Yen, C; Popescu, G; Wax, A; Badizadegan, K; Dasari, RR; Feld, MS, Quantitative phase imaging using actively stabilized phase-shifting low-coherence interferometry., Optics Letters, vol. 29 no. 20 (October, 2004), pp. 2399-2401 [OL.29.002399], [doi]  [abs].
  335. Wax, A, Detecting pre-cancerous cells using angle-resolved low coherence interferometry, Optics Infobase Conference Papers (January, 2004)  [abs].
  336. Chou, DR; Koh, S; Bower, BA; Wax, AP, Low-cost, highly-adaptable, retrofitted laser scanning module for real-time reflectance and confocal fluorescence microscopy, Optics Infobase Conference Papers (January, 2004)  [abs].
  337. Pyhtila, JW; Terry, NG; Wax, A, Experimental calibration of a new angle-resolved low coherence interferometry system, Optics Infobase Conference Papers (January, 2004)  [abs].
  338. Wax, A, Real-time angle-resolved low-coherence interferometry for detecting pre-cancerous cells, Optics Infobase Conference Papers (January, 2004)  [abs].
  339. Pyhtila, J; Graf, R; Wax, A, Determining nuclear morphology using an improved angle-resolved low coherence interferometry system., Optics Express, vol. 11 no. 25 (December, 2003), pp. 3473-3484 [doi]  [abs].
  340. Tunnell, JW; Desjardins, AE; Galindo, L; Georgakoudi, I; McGee, SA; Mirkovic, J; Mueller, MG; Nazemi, J; Nguyen, FT; Wax, A; Zhang, Q; Dasari, RR; Feld, MS, Instrumentation for multi-modal spectroscopic diagnosis of epithelial dysplasia., Technology in Cancer Research & Treatment, vol. 2 no. 6 (December, 2003), pp. 505-514 [doi]  [abs].
  341. Wax, A; Yang, C; Izatt, JA, Fourier-domain low-coherence interferometry for light-scattering spectroscopy., Optics Letters, vol. 28 no. 14 (July, 2003), pp. 1230-1232 [doi]  [abs].
  342. Wax, A; Yang, C; Müller, MG; Nines, R; Boone, CW; Steele, VE; Stoner, GD; Dasari, RR; Feld, MS, In situ detection of neoplastic transformation and chemopreventive effects in rat esophagus epithelium using angle-resolved low-coherence interferometry., Cancer Research, vol. 63 no. 13 (July, 2003), pp. 3556-3559  [abs].
  343. Müller, MG; Wax, A; Georgakoudi, I; Dasari, RR; Feld, MS, A reflectance spectrofluorimeter for real-time spectral diagnosis of disease, Review of Scientific Instruments, vol. 73 no. 11 (November, 2002), pp. 3933, AIP Publishing [1.1511795], [doi]  [abs].
  344. Wax, A; Yang, C; Backman, V; Kalashnikov, M; Dasari, RR; Feld, MS, Determination of particle size by using the angular distribution of backscattered light as measured with low-coherence interferometry., Journal of the Optical Society of America A, vol. 19 no. 4 (April, 2002), pp. 737-744 [doi]  [abs].
  345. Wax, A; Yang, C; Backman, V; Badizadegan, K; Boone, CW; Dasari, RR; Feld, MS, Cellular organization and substructure measured using angle-resolved low-coherence interferometry., Biophysical Journal, vol. 82 no. 4 (April, 2002), pp. 2256-2264 [doi]  [abs].
  346. Yang, C; Wax, A; Dasari, RR; Feld, MS, 2π ambiguity-free optical distance measurement with subnanometer precision with a novel phase-crossing low-coherence interferometer, Optics Letters, vol. 27 no. 2 (January, 2002), pp. 77-79, The Optical Society [doi]  [abs].
  347. Wax, A; Yang, C; Müller, M; Georgakoudi, I; Boone, CW; Dasari, RR; Feld, MS, Structure and organization of cellular components measured in neoplastic tissues using angular low coherence interferometry, Optics Infobase Conference Papers (January, 2002), pp. 254-256  [abs].
  348. Backman, V; Gopal, V; Kalashnikov, M; Badizadegan, K; Gurjar, R; Wax, A; Georgakoudi, I; Mueller, M; Boone, CW; Dasari, RR; Feld, MS, Measuring Cellular Structure at Submicron Scale with Scattering Angle Sensitive Light Scattering Spectroscopy, Optics Infobase Conference Papers (January, 2002), pp. 661-663  [abs].
  349. Georgakoudi, I; Backman, V; Müller, M; Wallace, M; Jacobson, B; Badizadegan, K; Wax, A; Kalashnikov, M; Hunter, M; Dasari, R; Van Dam, J; Feld, M, Diffuse reflectance spectroscopy as an in vivo tool for characterizing changes in tissue organization during neoplastic development, Optics Infobase Conference Papers (January, 2002), pp. 649-651  [abs].
  350. Backman, V; Gurjar, R; Perelman, LT; Gopal, V; Kalashnikov, M; Badizadegan, K; Wax, A; Georgakoudi, I; Mueller, M; Boone, CW; Itzkan, I; Dasari, RR; Feld, MS, Imaging and measurement of cell structure and organization with submicron accuracy using light scattering spectroscopy, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4613 (January, 2002), pp. 101-110, SPIE [doi]  [abs].
  351. Yang, C; Wax, A; Badizadegan, K; Dasari, RR; Feld, MS, The study of cell dynamics with a novel phase referenced low coherence interferometer with sub-wavelength and sub-hertz sensitivity, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4619 (January, 2002), pp. 202-209 [doi]  [abs].
  352. Yang, C; Wax, A; Dasari, RR; Feld, MS, 2π ambiguity-free optical distance measurement with subnanometer precision with a novel phase-crossing low-coherence interferometer, Opt. Lett. (Usa), vol. 27 no. 2 (2002), pp. 77-79  [abs].
  353. Backman, V; Gopal, V; Kalashnikov, M; Badizadegan, K; Gurjar, R; Wax, A; Georgakoudi, I; Mueller, M; Boone, CW; Dasari, RR; Feld, MS, Measuring cellular structure at submicrometer scale with light scattering spectroscopy, Ieee Journal of Selected Topics in Quantum Electronics, vol. 7 no. 6 (November, 2001), pp. 887-893, Institute of Electrical and Electronics Engineers (IEEE) [doi]  [abs].
  354. Yang, C; Wax, A; Dasari, RR; Feld, MS, Phase dispersion optical tomography applied to study sub-cellular motions, Conference on Lasers and Electro Optics Europe Technical Digest (October, 2001), pp. 326-327 [CLEO.2001.947869]  [abs].
  355. Wax, A; Yang, C; Dasari, RR; Feld, MS, Path-length-resolved dynamic light scattering: Modeling the transition from single to diffusive scattering, Applied Optics, vol. 40 no. 24 (August, 2001), pp. 4222-4227, The Optical Society [doi]  [abs].
  356. Yang, C; Wax, A; Hahn, MS; Badizadegan, K; Dasari, RR; Feld, MS, Phase-referenced interferometer with subwavelength and subhertz sensitivity applied to the study of cell membrane dynamics, Optics Letters, vol. 26 no. 16 (August, 2001), pp. 1271-1273, The Optical Society [doi]  [abs].
  357. Yang, C; Wax, A; Dasari, RR; Feld, MS, Phase-dispersion optical tomography, Optics Letters, vol. 26 no. 10 (May, 2001), pp. 686-688, The Optical Society [doi]  [abs].
  358. Wax, A; Yang, C; Dasari, RR; Feld, MS, Measurement of angular distributions by use of low-coherence interferometry for light-scattering spectroscopy, Optics Letters, vol. 26 no. 6 (March, 2001), pp. 322-324, The Optical Society [doi]  [abs].
  359. Yang, C; Wax, A; Feld, MS, Measurement of the anomalous phase velocity of ballistic light in a random medium by use of a novel interferometer, Optics Letters, vol. 26 no. 4 (February, 2001), pp. 235-237, The Optical Society [doi]  [abs].
  360. Wax, A; Yang, C; Dasari, RR; Feld, MS, Angular light scattering studies using low-coherence interferometry, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4251 (January, 2001), pp. 32-42, SPIE [12.427903], [doi]  [abs].
  361. Yang, C; Wax, A; Badizadegan, K; Dasari, RR; Feld, MS, Phase-referenced interferometer with subwavelength and subhertz sensitivity, Optics and Photonics News, vol. 12 no. 12 (January, 2001), pp. 36, The Optical Society [doi]  [abs].
  362. Müller, MG; Georgakoudi, I; Wax, A; Dasari, R; Jost, C; Wallace, M; Feld, MS, Multiexcitation fluorescence and reflectance spectroscopy as a real time guide to biopsy in vivo, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4261 (January, 2001), pp. 114-121, SPIE [12.424525], [doi]  [abs].
  363. Yang, C; Wax, A; Dasari, RR; Feld, MS, Interferometric phase-based dual wavelength tomography, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4251 (January, 2001), pp. 63-70, SPIE [doi]  [abs].
  364. Yang, C; Wax, A; Georgakoudi, I; Hanlon, EB; Badizadegan, K; Dasari, RR; Feld, MS, Interferometric phase-dispersion microscopy, Optics Letters, vol. 25 no. 20 (October, 2000), pp. 1526-1528, The Optical Society [doi]  [abs].
  365. Wax, A; Bali, S; Thomas, JE, Time-resolved phase-space distributions for light backscattered from a disordered medium., Physical Review Letters, vol. 85 no. 1 (July, 2000), pp. 66-69 [66], [doi]  [abs].
  366. Thomas, JE; Reil, F; Lee, KF; Wax, A; Bali, S, <title>Wigner phase space distribution and coherence tomography</title>, edited by Band, YB, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 3927 (April, 2000), pp. 147-155, SPIE [doi] .
  367. Yang, C; Perelman, LT; Wax, A; Dasari, RR; Feld, MS, Feasibility of field-based light scattering spectroscopy., Journal of Biomedical Optics, vol. 5 no. 2 (April, 2000), pp. 138-143 [1.429980], [doi]  [abs].
  368. Wax, A; Yang, C; Dasari, RR; Feld, MS, Path-length-resolved dynamic light scattering: modeling the transition from single to diffusive scattering, Optics Infobase Conference Papers (January, 2000), pp. 143-145  [abs].
  369. Wax, A; Reil, F; Lee, KF; Bali, S; Thomas, JE, Time-resolved optical phase space distributions for coherent backscatter, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 4001 (January, 2000), pp. 130-134, SPIE [12.381482], [doi]  [abs].
  370. Thomas, JE; Reil, F; Lee, KF; Wax, A; Bali, S, Wigner phase space distributions and coherence tomography, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 3914 (January, 2000), pp. 363-371, SPIE [doi]  [abs].
  371. Thomas, J.E. and Reil, F. and Lee, K.F. and Wax, A. and Bali, S., Wigner phase space distribution and coherence tomography, Proc. SPIE - Int. Soc. Opt. Eng. (USA), vol. 3927 (2000), pp. 147 - 55 [12.382047]  [abs].
  372. Lee, KF; Reil, F; Bali, S; Wax, A; Thomas, JE, Heterodyne measurement of Wigner distributions for classical optical fields., Optics Letters, vol. 24 no. 19 (October, 1999), pp. 1370-1372 [doi]  [abs].
  373. Wax, A; Bali, S; Alphonse, GA; Thomas, JE, Characterizing the Coherence of Broadband Sources using Optical Phase Space Contours., Journal of Biomedical Optics, vol. 4 no. 4 (October, 1999), pp. 482-489 [1.429961], [doi]  [abs].
  374. Wax, A; Bali, S; Thomas, JE, Optical phase-space distributions for low-coherence light., Optics Letters, vol. 24 no. 17 (September, 1999), pp. 1188-1190 [doi]  [abs].
  375. Wax, A; Thomas, JE, Measurement of smoothed Wigner phase space distributions for coherence tomography, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 3726 (January, 1999), pp. 494-501, SPIE [12.341431], [doi]  [abs].
  376. Wax, A; Thomas, JE, Measurement of smoothed Wigner phase space distributions for coherence tomography, Smart Structures and Materials 2005: Active Materials: Behavior and Mechanics, vol. 3598 (January, 1999), pp. 2-9  [abs].
  377. Wax, A. and Thomas, J.E., Optical phase space distributions for low coherence light in turbid media, Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Postconference Edition. CLEO '99. Conference on Lasers and Electro-Optics (IEEE Cat. No.99CH37013) (1999), pp. 340 - 1 [CLEO.1999.834276]  [abs].
  378. Wax, A; Thomas, JE, Measurement of smoothed Wigner phase-space distributions for small-angle scattering in a turbid medium., Journal of the Optical Society of America A, vol. 15 no. 7 (July, 1998), pp. 1896-1908 [doi]  [abs].
  379. Wax, A; Thomas, JE, Measurement of Smoothed Wigner Phase Space Distributions in Multiple Scattering Media, Optics Infobase Conference Papers (January, 1998), pp. 348-352  [abs].
  380. Wax, A; Thomas, JE, Wigner phase space distributions and optical coherence in turbid media, Conference Proceedings Lasers and Electro Optics Society Annual Meeting Leos, vol. 11 (January, 1997), pp. 41  [abs].
  381. Wax, A; Thomas, JE, Optical heterodyne imaging and Wigner phase space distributions., Optics Letters, vol. 21 no. 18 (September, 1996), pp. 1427-1429 [doi]  [abs].
  382. Wax, A. and Thomas, J.E., Heterodyne measurement of Wigner phase space distributions in turbid media, OSA Trends in Optics and Photonics on Advances in Optical Imaging and Photon Migration. Vol.2 From the Topical Meeting (1996), pp. 238 - 42  [abs].
  383. Wax, A. and Thomas, J.E., Optical heterodyne imaging and Wigner phase space distributions, Opt. Lett. (USA), vol. 21 no. 18 (15), pp. 1427 - 9  [abs].
  384. Wax, A. and Bali, S. and Thomas, J.E., Optical phase-space distributions for low-coherence light, Opt. Lett. (USA), vol. 24 no. 17 (1), pp. 1188 - 90  [abs].