Publications of Gleb Finkelstein    :chronological  alphabetical  combined  by tags  bibtex listing:

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Papers Published
  1. Shama; McCourt, JT; Baksi, M; Finkelstein, G; Kumah, DP, Superconductivity in spin-orbit coupled BaBi3 formed by in situ reduction of bismuthate films, Physical Review Materials, vol. 9 no. 12 (December, 2025) [doi] [abs] .
  2. McCourt, JT; Arnault, EG; Baksi, M; Poage, SJ; Salmani-Rezaie, S; Ahadi, K; Kumah, D; Finkelstein, G, Electrostatic Control of Quantum Phases in KTaO<sub>3</sub>-Based Planar Constrictions., Nano letters, vol. 25 no. 45 (November, 2025), pp. 16091-16096 [doi] [abs] .
  3. Larson, TFQ; Zhao, L; Arnault, EG; Wei, MT; Seredinski, A; Li, H; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Noise-induced stabilization of dynamical states with broken time-reversal symmetry, Physical Review B, vol. 112 no. 1 (July, 2025), American Physical Society (APS) [doi] .
  4. Sharma, A; Chen, C-C; McCourt, J; Kim, M; Watanabe, K; Taniguchi, T; Rokhinson, L; Finkelstein, G; Borzenets, I, Fermi Velocity Dependent Critical Current in Ballistic Bilayer Graphene Josephson Junctions., ACS nanoscience Au, vol. 5 no. 2 (April, 2025), pp. 65-69 [doi] [abs] .
  5. Arnault, EG; Chiles, J; Larson, TFQ; Chen, C-C; Zhao, L; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Multiplet Supercurrents in a Josephson Circuit., Physical review letters, vol. 134 no. 6 (February, 2025), pp. 067001 [doi] [abs] .
  6. Zhao, L; Larson, TFQ; Iftikhar, Z; Chiles, J; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Thermal Properties of the Superconductor-Quantum Hall Interface., Physical review letters, vol. 134 no. 6 (February, 2025), pp. 066001 [doi] [abs] .
  7. Zhao, L; Arnault, EG; Larson, TFQ; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Nonlocal transport measurements in hybrid quantum Hall-superconducting devices, Physical Review B, vol. 109 no. 11 (March, 2024) [doi] [abs] .
  8. Zhao, L; Iftikhar, Z; Larson, TFQ; Arnault, EG; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Loss and Decoherence at the Quantum Hall-Superconductor Interface., Physical review letters, vol. 131 no. 17 (October, 2023), pp. 176604 [doi] [abs] .
  9. Chiles, J; Arnault, EG; Chen, C-C; Larson, TFQ; Zhao, L; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Nonreciprocal Supercurrents in a Field-Free Graphene Josephson Triode., Nano letters, vol. 23 no. 11 (June, 2023), pp. 5257-5263 [doi] [abs] .
  10. Arnault, EG; Al-Tawhid, AH; Salmani-Rezaie, S; Muller, DA; Kumah, DP; Bahramy, MS; Finkelstein, G; Ahadi, K, Anisotropic superconductivity at KTaO3(111) interfaces., Science advances, vol. 9 no. 7 (February, 2023), pp. eadf1414 [doi] [abs] .
  11. Zhao, L; Arnault, EG; Larson, TFQ; Iftikhar, Z; Seredinski, A; Fleming, T; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Graphene-Based Quantum Hall Interferometer with Self-Aligned Side Gates., Nano letters, vol. 22 no. 23 (December, 2022), pp. 9645-9651 [doi] [abs] .
  12. Arnault, EG; Idris, S; McConnell, A; Zhao, L; Larson, TFQ; Watanabe, K; Taniguchi, T; Finkelstein, G; Amet, F, Dynamical Stabilization of Multiplet Supercurrents in Multiterminal Josephson Junctions., Nano letters, vol. 22 no. 17 (September, 2022), pp. 7073-7079 [doi] [abs] .
  13. Arnault, EG; Larson, TFQ; Seredinski, A; Zhao, L; Idris, S; McConnell, A; Watanabe, K; Taniguchi, T; Borzenets, I; Amet, F; Finkelstein, G, Multiterminal Inverse AC Josephson Effect., Nano letters, vol. 21 no. 22 (November, 2021), pp. 9668-9674 [doi] [abs] .
  14. Seredinski, A; Arnault, EG; Costa, VZ; Zhao, L; Larson, TFQ; Watanabe, K; Taniguchi, T; Amet, F; Newaz, AKM; Finkelstein, G, One-dimensional edge contact to encapsulated MoS2 with a superconductor, Aip Advances, vol. 11 no. 4 (April, 2021) [doi] [abs] .
  15. Zhang, G; Chung, C-H; Ke, C-T; Lin, C-Y; Mebrahtu, H; Smirnov, AI; Finkelstein, G; Baranger, HU, Nonequilibrium quantum critical steady state: Transport through a dissipative resonant level, Physical Review Research, vol. 3 no. 1 (February, 2021), pp. 013136-013136, American Physical Society (APS) [doi] [abs] .
  16. Zhang G, Chung C-H, Ke C-T, Lin C-Y, Mebrahtu H, Smirnov AI, Finkelstein G, Baranger HU, Nonequilibrium quantum critical steady state: Transport through a dissipative resonant level, Physical Review Research, vol. 3 no. 1 (2021) [doi] .
  17. Larson, TFQ; Zhao, L; Arnault, EG; Wei, M-T; Seredinski, A; Li, H; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Zero Crossing Steps and Anomalous Shapiro Maps in Graphene Josephson Junctions., Nano letters, vol. 20 no. 10 (October, 2020), pp. 6998-7003 [doi] [abs] .
  18. Zhao, L; Arnault, EG; Bondarev, A; Seredinski, A; Larson, T; Draelos, AW; Li, H; Watanabe, K; Taniguchi, T; Amet, F; Baranger, HU; Finkelstein, G, Interference of Chiral Andreev Edge States, Nature Physics, vol. 16 no. 8 (May, 2020), pp. 862-867, Springer Nature [1907.01722], [doi] [abs] .
  19. Ke, CT; Draelos, AW; Seredinski, A; Wei, MT; Li, H; Hernandez-Rivera, M; Watanabe, K; Taniguchi, T; Yamamoto, M; Tarucha, S; Bomze, Y; Borzenets, IV; Amet, F; Finkelstein, G, Anomalous periodicity of magnetic interference patterns in encapsulated graphene Josephson junctions, Physical Review Research, vol. 1 no. 3 (November, 2019), pp. 033084 [PhysRevResearch.1.033084], [doi] [abs] .
  20. Wei, MT; Draelos, AW; Seredinski, A; Ke, CT; Li, H; Mehta, Y; Watanabe, K; Taniguchi, T; Yamamoto, M; Tarucha, S; Finkelstein, G; Amet, F; Borzenets, IV, Chiral quasiparticle tunneling between quantum Hall edges in proximity with a superconductor, Physical Review B, vol. 100 no. 12 (September, 2019) [doi] [abs] .
  21. Seredinski, A; Draelos, AW; Arnault, EG; Wei, M-T; Li, H; Fleming, T; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Quantum Hall-based superconducting interference device., Science advances, vol. 5 no. 9 (September, 2019), pp. eaaw8693 [doi] [abs] .
  22. Draelos, AW; Silverman, A; Eniwaye, B; Arnault, EG; Ke, CT; Wei, MT; Vlassiouk, I; Borzenets, IV; Amet, F; Finkelstein, G, Subkelvin lateral thermal transport in diffusive graphene, Physical Review B, vol. 99 no. 12 (March, 2019) [doi] [abs] .
  23. Draelos, AW; Wei, M-T; Seredinski, A; Li, H; Mehta, Y; Watanabe, K; Taniguchi, T; Borzenets, IV; Amet, F; Finkelstein, G, Supercurrent Flow in Multiterminal Graphene Josephson Junctions., Nano letters, vol. 19 no. 2 (February, 2019), pp. 1039-1043 [doi] [abs] .
  24. Seredinski, A; Draelos, A; Wei, MT; Ke, CT; Fleming, T; Mehta, Y; Mancil, E; Li, H; Taniguchi, T; Watanabe, K; Tarucha, S; Yamamoto, M; Borzenets, IV; Amet, F; Finkelstein, G, Supercurrent in Graphene Josephson Junctions with Narrow Trenches in the Quantum Hall Regime, MRS Advances, vol. 3 no. 47-48 (January, 2018), pp. 2855-2864, Cambridge University Press (CUP) [doi] [abs] .
  25. Finkelstein, G; Amet, F, Superconductivity: When Andreev meets Hall, Nature Physics, vol. 13 no. 7 (July, 2017), pp. 625-626, Springer Nature [doi] .
  26. Draelos, A; Wei, MT; Seredinski, A; Ke, C; Watanabe, K; Taniguchi, T; Yamamoto, M; Tarucha, S; Borzenets, I; Amet, F; Finkelstein, G, Investigation of Supercurrent in the Quantum Hall Regime in Graphene Josephson Junctions, Submitted to the Journal of Low Temperature Physics, vol. 191 no. 5-6 (2017), pp. 288-300 [doi] [abs] .
  27. Borzenets, IV; Amet, F; Ke, CT; Draelos, AW; Wei, MT; Seredinski, A; Watanabe, K; Taniguchi, T; Bomze, Y; Yamamoto, M; Tarucha, S; Finkelstein, G, Ballistic Graphene Josephson Junctions from the Short to the Long Junction Regimes., Physical review letters, vol. 117 no. 23 (December, 2016), pp. 237002 [doi] [abs] .
  28. Ke, CT; Borzenets, IV; Draelos, AW; Amet, F; Bomze, Y; Jones, G; Craciun, M; Russo, S; Yamamoto, M; Tarucha, S; Finkelstein, G, Critical Current Scaling in Long Diffusive Graphene-Based Josephson Junctions., Nano letters, vol. 16 no. 8 (August, 2016), pp. 4788-4791 [doi] [abs] .
  29. Amet, F; Ke, CT; Borzenets, IV; Wang, J; Watanabe, K; Taniguchi, T; Deacon, RS; Yamamoto, M; Bomze, Y; Tarucha, S; Finkelstein, G, Supercurrent in the quantum Hall regime., Science (New York, N.Y.), vol. 352 no. 6288 (May, 2016), pp. 966-969 [doi] [abs] .
  30. Zhang, X; Gutierrez, Y; Li, P; Barreda, AI; Watson, AM; Alcaraz De La Osa, R; Finkelstein, G; Gonzalez, F; Ortiz, D; Saiz, JM; Sanz, JM; Everitt, HO; Liu, J; Moreno, F, Plasmonics in the UV range with Rhodium nanocubes, Proceedings of SPIE the International Society for Optical Engineering, vol. 9884 (January, 2016), SPIE [doi] [abs] .
  31. Amet, F; Finkelstein, G, Valleytronics: Could use a break, Nature Physics, vol. 11 no. 12 (December, 2015), pp. 989-990, Springer Nature [doi] .
  32. Watson, AM; Zhang, X; Alcaraz de la Osa, R; Marcos Sanz, J; González, F; Moreno, F; Finkelstein, G; Liu, J; Everitt, HO, Rhodium nanoparticles for ultraviolet plasmonics., Nano letters, vol. 15 no. 2 (February, 2015), pp. 1095-1100 [doi] [abs] .
  33. Li, J; Ke, C-T; Liu, K; Li, P; Liang, S; Finkelstein, G; Wang, F; Liu, J, Importance of diameter control on selective synthesis of semiconducting single-walled carbon nanotubes., ACS nano, vol. 8 no. 8 (August, 2014), pp. 8564-8572 [nn503265g], [doi] [abs] .
  34. Liu, DE; Zheng, H; Finkelstein, G; Baranger, HU, Tunable quantum phase transitions in a resonant level coupled to two dissipative baths, Physical Review B Condensed Matter and Materials Physics, vol. 89 no. 8 (February, 2014), pp. 085116, American Physical Society (APS) [PhysRevB.89.085116], [doi] [abs] .
  35. Pilo-Pais, M; Watson, A; Demers, S; LaBean, TH; Finkelstein, G, Surface-enhanced Raman scattering plasmonic enhancement using DNA origami-based complex metallic nanostructures., Nano letters, vol. 14 no. 4 (January, 2014), pp. 2099-2104 [nl5003069], [doi] [abs] .
  36. Borzenets, IV; Coskun, UC; Mebrahtu, HT; Bomze, YV; Smirnov, AI; Finkelstein, G, Phonon bottleneck in graphene-based Josephson junctions at millikelvin temperatures., Physical review letters, vol. 111 no. 2 (July, 2013), pp. 027001 [23889431], [doi] [abs] .
  37. Chung, CH; Le Hur, K; Finkelstein, G; Vojta, M; Wölfle, P, Nonequilibrium quantum transport through a dissipative resonant level, Physical Review B Condensed Matter and Materials Physics, vol. 87 no. 24 (June, 2013), pp. 245310, American Physical Society (APS) [Gateway.cgi], [doi] [abs] .
  38. Mebrahtu, HT; Borzenets, IV; Zheng, H; Bomze, YV; Smirnov, AI; Florens, S; Baranger, HU; Finkelstein, G, Observation of majorana quantum critical behaviour in a resonant level coupled to a dissipative environment, Nature Physics, vol. 9 no. 11 (January, 2013), pp. 732-737 [doi] [abs] .
  39. Yoon, I; Hamaguchi, K; Borzenets, IV; Finkelstein, G; Mooney, R; Donald, BR, Intracellular Neural Recording with Pure Carbon Nanotube Probes., PLoS One, vol. 8 no. 6 (2013), pp. e65715 [doi] [abs] .
  40. Mebrahtu, HT; Borzenets, IV; Zheng, H; Bomze, YV; Smirnov, AI; Florens, S; Baranger, HU; Finkelstein, G, Observation of Majorana quantum critical behaviour in a resonant level coupled to a dissipative environment, Nature Physics, vol. 9 no. 11 (2013), pp. 732-737, Springer Science and Business Media LLC [1212.3857v1], [doi] [abs] .
  41. Mebrahtu, HT; Borzenets, IV; Liu, DE; Zheng, H; Bomze, YV; Smirnov, AI; Baranger, HU; Finkelstein, G, Quantum phase transition in a resonant level coupled to interacting leads., Nature, vol. 488 no. 7409 (August, 2012), pp. 61-64 [22859201], [doi] [abs] .
  42. Borzenets, IV; Yoon, I; Prior, MW; Donald, BR; Mooney, RD; Finkelstein, G, Erratum: Ultra-sharp metal and nanotube-based probes for applications in scanning microscopy and neural recording (Journal of Applied Physics (2012) 111 (074703)), Journal of Applied Physics, vol. 112 no. 2 (July, 2012), pp. 029906-029906, AIP Publishing [doi] .
  43. Borzenets, IV; Coskun, UC; Mebrahtu, H; Finkelstein, G, Pb-Graphene-Pb josephson junctions: Characterization in magnetic field, IEEE Transactions on Applied Superconductivity, vol. 22 no. 5 (June, 2012), pp. 1800104-1800104, Institute of Electrical and Electronics Engineers (IEEE) [doi] [abs] .
  44. Borzenets, IV; Yoon, I; Prior, MM; Donald, BR; Mooney, RD; Finkelstein, G, Ultra-sharp metal and nanotube-based probes for applications in scanning microscopy and neural recording., J Appl Phys, vol. 111 no. 7 (April, 2012), pp. 74703-747036 [doi] [abs] .
  45. Mebrahtu, H; Borzenets, I; Bomze, Y; Finkelstein, G, Observation of unitary conductance for resonant tunneling with dissipation, Journal of Physics Conference Series, vol. 400 no. PART 4 (January, 2012), pp. 042007-042007, IOP Publishing [Gateway.cgi], [doi] [abs] .
  46. Li, P; Wu, PM; Bomze, Y; Borzenets, IV; Finkelstein, G; Chang, AM, Retrapping current, self-heating, and hysteretic current-voltage characteristics in ultranarrow superconducting aluminum nanowires, Physical Review B Condensed Matter and Materials Physics, vol. 84 no. 18 (November, 2011), pp. 184508, American Physical Society (APS) [e184508], [doi] [abs] .
  47. Borzenets, IV; Coskun, UC; Jones, SJ; Finkelstein, G, Phase diffusion in graphene-based Josephson junctions., Physical review letters, vol. 107 no. 13 (September, 2011), pp. 137005 [22026894], [doi] [abs] .
  48. Li, P; Wu, PM; Bomze, Y; Borzenets, IV; Finkelstein, G; Chang, AM, Switching currents limited by single phase slips in one-dimensional superconducting Al nanowires., Physical review letters, vol. 107 no. 13 (September, 2011), pp. 137004 [22026893], [doi] [abs] .
  49. Pilo-Pais, M; Goldberg, S; Samano, E; Labean, TH; Finkelstein, G, Connecting the nanodots: programmable nanofabrication of fused metal shapes on DNA templates., Nano letters, vol. 11 no. 8 (August, 2011), pp. 3489-3492 [21732612], [doi] [abs] .
  50. Samano, EC; Pilo-Pais, M; Goldberg, S; Vogen, BN; Finkelstein, G; LaBean, TH, Self-Assembling DNA Templates for Programmed Artificial Biomineralization, Soft Matter, vol. 7 no. 7 (January, 2011), pp. 3240-3245, Royal Society of Chemistry (RSC) [c0sm01318h], [doi] [abs] .
  51. Bomze, Y; Borzenets, I; Mebrahtu, H; Makarovski, A; Baranger, HU; Finkelstein, G, Two-stage Kondo effect and Kondo-box level spectroscopy in a carbon nanotube, Physical Review B Condensed Matter and Materials Physics, vol. 82 no. 16 (October, 2010), pp. 161411R, American Physical Society (APS) [repository], [doi] [abs] .
  52. Bomze, Y; Mebrahtu, H; Borzenets, I; Makarovski, A; Finkelstein, G, Resonant tunneling in a dissipative environment, Physical Review B Condensed Matter and Materials Physics, vol. 79 no. 24 (June, 2009), pp. 241402R, American Physical Society (APS) [GetabsServlet], [doi] [abs] .
  53. Zhukov, AA; Finkelstein, G, Dependence of transport through carbon nanotubes on local coulomb potential, JETP Letters, vol. 89 no. 4 (April, 2009), pp. 212-215, Pleiades Publishing Ltd [doi] [abs] .
  54. Coskun, UC; Mebrahtu, H; Huang, PB; Huang, J; Sebba, D; Biasco, A; Makarovski, A; Lazarides, A; Labean, TH; Finkelstein, G, Single-electron transistors made by chemical patterning of silicon dioxide substrates and selective deposition of gold nanoparticles, Applied Physics Letters, vol. 93 no. 12 (September, 2008), pp. 123101-123101, AIP Publishing [doi] [abs] .
  55. Makarovski, A; Finkelstein, G, Su(4) mixed valence regime in carbon nanotube quantum dots, Physica B Condensed Matter, vol. 403 no. 5-9 (April, 2008), pp. 1555-1557, Elsevier BV [doi] [abs] .
  56. Anders, FB; Logan, DE; Galpin, MR; Finkelstein, G, Zero-bias conductance in carbon nanotube quantum dots., Physical review letters, vol. 100 no. 8 (February, 2008), pp. 086809 [doi] [abs] .
  57. Park, SH; Finkelstein, G; LaBean, TH, Stepwise self-assembly of DNA tile lattices using dsDNA bridges., Journal of the American Chemical Society, vol. 130 no. 1 (January, 2008), pp. 40-41 [18072780], [doi] [abs] .
  58. Coskun, UC; Mebrahtu, H; Huang, P; Huang, J; Biasco, A; Makarovski, A; Lazarides, A; LaBean, T; Finkelstein, G, Chemical patterning of silicon dioxide substrates for selective deposition of gold nanoparticles and fabrication of single-electron transistors, Applied Physics Letters, vol. 93 (2008), pp. 123101 .
  59. Park, SH; Finkelstein, G; Labean, TH, Stepwise Self-Assembly of DNA Tile Lattices Using dsDNA Bridges, Journal of the American Chemical Society, vol. 130 no. 40-41 (2008), pp. 40-41 [18072780], [doi] [abs] .
  60. Makarovski, A; Zhukov, A; Liu, J; Finkelstein, G, Four-probe measurements of carbon nanotubes with narrow metal contacts, Physical Review B Condensed Matter and Materials Physics, vol. 76 no. 16 (October, 2007), pp. R161405, American Physical Society (APS) [doi] [abs] .
  61. Prior, M; Makarovski, A; Finkelstein, G, Low-temperature conductive tip atomic force microscope for carbon nanotube probing and manipulation, Applied Physics Letters, vol. 91 no. 5 (August, 2007), pp. 053112-053112, AIP Publishing [doi] [abs] .
  62. Makarovski, A; Liu, J; Finkelstein, G, Evolution of transport regimes in carbon nanotube quantum dots., Physical review letters, vol. 99 no. 6 (August, 2007), pp. 066801 [17930850], [doi] [abs] .
  63. Makarovski, A; Zhukov, A; Liu, J; Finkelstein, G, SU(2) and SU(4) Kondo effects in carbon nanotube quantum dots, Physical Review B Condensed Matter and Materials Physics, vol. 75 no. 24 (June, 2007), American Physical Society (APS) [doi] [abs] .
  64. Makarovski, A; Zhukov, A; Liu, J; Finkelstein, G, SU(4) and SU(2) Kondo Effects in Carbon Nanotube Quantum Dots, Physical Review B, vol. 75 no. 24 (2007), pp. R241407 [doi] [abs] .
  65. Makarovski, A; An, L; Liu, J; Finkelstein, G, Persistent orbital degeneracy in carbon nanotubes, Physical Review B Condensed Matter and Materials Physics, vol. 74 no. 15 (November, 2006), pp. 155431, American Physical Society (APS) [doi] [abs] .
  66. Park, SH; Prior, MW; LaBean, TH; Finkelstein, G, Optimized fabrication and electrical analysis of silver nanowires templated on DNA molecules, Applied Physics Letters, vol. 89 no. 3 (July, 2006), pp. 033901-033901, AIP Publishing [doi] [abs] .
  67. Park, SH; Prior, MW; LaBean, TH; Finkelstein, G, Silver nanowires templated on DNA molecules, Applied Physics Letters, vol. 89 (2006), pp. 033901 [abs] .
  68. Park, SH; Li, H; Yan, H; Reif, JH; Finkelstein, G; LaBean, TH, Self-assembled 1D DNA nanostructures as templates for silver nanowires, 2nd Conference on Foundations of Nanoscience Self Assembled Architectures and Devices Fnano 2005 (December, 2005), pp. 193-196 .
  69. Park, SH; Barish, R; Li, H; Reif, JH; Finkelstein, G; Yan, H; LaBean, TH, Three-Helix Bundle DNA Tiles Self-Assemble into 2D Lattice or 1D Templates for Silver Nanowires., Nano Letters, vol. 5 no. 4 (March, 2005), pp. 693 [15826110], [doi] [abs] .
  70. Park, SH; Yan, H; Reif, JH; LaBean, TH; Finkelstein, G, Electronic nanostructures templated on self-assembled DNA scaffolds, Nanotechnology, vol. 15 no. 10 (July, 2004), pp. S525-S527, IOP Publishing [pdf], [doi] [abs] .
  71. Yan, H; Park, SH; Finkelstein, G; Reif, JH; LaBean, TH, DNA-Templated Self-Assembly of Protein Arrays and Highly Conductive Nanowires, Science, vol. 301 no. 5641 (September, 2003), pp. 1882 [14512621], [doi] [abs] .
  72. Tessmer, SH; Finkelstein, G; Glicofridis, PI; Ashoori, RC, Modeling subsurface charge accumulation images of a quantum hall liquid, Physical Review B Condensed Matter and Materials Physics, vol. 66 no. 12 (September, 2002), pp. 1253081-1253086, American Physical Society (APS) [doi] [abs] .
  73. Tessmer, SH; Finkelstein, G; Glicofridis, PI; Ashoori, RC, Modeling Subsurface Charge Accumulation Images of a Quantum Hall Liquid, Phys. Rev. B, vol. 66 no. 12 (August, 2002), pp. 125308 [abs] .
  74. Zheng, B; Lu, C; Gu, G; Makarovski, A; Finkelstein, G; Liu, J, Efficient CVD Growth of Single-Walled Carbon Nanotubes on Surfaces Using Carbon Monoxide Precursor, Nano Letters, vol. 2 no. 8 (August, 2002), pp. 895-898, American Chemical Society (ACS) [doi] [abs] .
  75. Glicofridis, PI; Finkelstein, G; Ashoori, RC; Shayegan, M, Determination of the resistance across incompressible strips through imaging of charge motion, Physical Review B Condensed Matter and Materials Physics, vol. 65 no. 12 (March, 2002), pp. 1213121-1213124 [abs] .
  76. Glicofridis, PI; Finkelstein, G; Ashoori, RC; Shayegan, M, Determination of the resistance across incompressible strips through imaging of charge motion, Physical Review B Condensed Matter and Materials Physics, vol. 65 no. 12 (January, 2002), pp. 1-4 [doi] [abs] .
  77. Finkelstein, G; Glicofridis, PI; Tessmer, SH; Ashoori, RC; Melloch, MR, Imaging of Low Compressibility Strips in the Quantum Hall Liquid, Phys. Rev. B, vol. 61 no. 24 (December, 2000), pp. R16 323, American Physical Society (APS) [doi] [abs] .
  78. Finkelstein, G; Glicofridis, PI; Ashoori, RC; Shayegan, M, Topographic mapping of the quantum hall liquid using a few-electron bubble, Science, vol. 289 no. 5476 (July, 2000), pp. 90-94, American Association for the Advancement of Science (AAAS) [doi] [abs] .
  79. Finkelstein, G; Glicofridis, PI; Tessmer, SH; Ashoori, RC; Melloch, MR, Imaging the low compressibility strips formed by the Quantum Hall liquid in a smooth potential gradient, Physica E Low Dimensional Systems and Nanostructures, vol. 6 no. 1 (January, 2000), pp. 251-254, Elsevier BV [doi] [abs] .
  80. Finkelstein, G; Glicofridis, PI; Tessmer, SH; Ashoori, RC; Melloch, MR, Imaging of low-compressibility strips in the quantum Hall liquid, Physical Review B - Condensed Matter and Materials Physics, vol. 61 no. 24 (2000), pp. R16323-R16326 [abs] .
  81. Glasberg, S; Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Comparative study of the negatively and positively charged excitons in gaas quantum wells, Physical Review B Condensed Matter and Materials Physics, vol. 59 no. 16 (January, 1999), pp. R10425-R10428, American Physical Society (APS) [doi] [abs] .
  82. Ciulin, V; Finkelstein, G; Haacke, S; Ganière, JD; Umansky, V; Bar-Joseph, I; Deveaud, B, Dynamics of charged excitons in GaAs quantum wells under high magnetic field, Physica B Condensed Matter, vol. 256-258 (December, 1998), pp. 466-469, Elsevier BV [doi] [abs] .
  83. Finkelstein, G, Gustav Magnus and his house: Commissioned by the Deutsche Physikalische Gesellschaft, Technology And Culture, vol. 39 no. 3 (July, 1998), pp. 568-569 .
  84. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Shake-up processes of a two-dimensional electron gas in GaAs/AlGaAs quantum wells at high magnetic fields, Physica B Condensed Matter, vol. 249-251 (June, 1998), pp. 575-579, Elsevier BV [doi] [abs] .
  85. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Shakeup processes in a two-dimensional electron gas in GaAs/AlGaAs quantum wells at high magnetic fields, Uspekhi Fizicheskikh Nauk, vol. 168 no. 2 (January, 1998), pp. 121-123 [doi] .
  86. Finkelstein, G; Umansky, V; Bar-Joseph, I; Ciulin, V; Haacke, S; Ganière, J; Deveaud, B, Charged exciton dynamics in GaAs quantum wells, Physical Review B Condensed Matter and Materials Physics, vol. 58 no. 19 (January, 1998), pp. 12637-12640, American Physical Society (APS) [doi] [abs] .
  87. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Mechanism of shakeup processes in the photoluminescence of a two-dimensional electron gas at high magnetic fields, Physical Review B Condensed Matter and Materials Physics, vol. 56 no. 16 (January, 1997), pp. 10326-10331, American Physical Society (APS) [doi] [abs] .
  88. I. Barjoseph and G. Finkelstein, Trions in GaAs quantum wells, INSTITUTE OF PHYSICS CONFERENCE SERIES, Compound Semiconductors 1996 no. 155 (1997), pp. 711 -- 716 .
  89. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Optical spectroscopy of neutral and charged excitons in GaAs/AlGaAs quantum wells in high magnetic fields, Surface Science, vol. 361-362 no. 1-3 (July, 1996), pp. 357-362, Elsevier BV [doi] [abs] .
  90. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Negatively and positively charged excitons in quantum wells, Physical Review B Condensed Matter and Materials Physics, vol. 53 no. 4 (January, 1996), pp. R1709-R1712, American Physical Society (APS) [doi] [abs] .
  91. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Shakeup processes in the recombination spectra of negatively charged excitons, Physical Review B Condensed Matter and Materials Physics, vol. 53 no. 19 (January, 1996), pp. 12593-12596, American Physical Society (APS) [doi] [abs] .
  92. Finkelstein, G; Bar-Joseph, I, Charged excitons in GaAs quantum wells, Il Nuovo Cimento D, vol. 17 no. 11-12 (November, 1995), pp. 1239-1245, Springer Nature [doi] [abs] .
  93. Barjoseph, I; Finkelstein, G; Barad, S; Shtrikman, H; Levinson, Y, 4-wave-mixing in modulation-doped gaas quantum-wells under strong magnetic-fields, Physica Status Solidi B-basic Research, vol. 188 no. 1 (March, 1995), pp. 457-463 .
  94. Finkelstein, G; Shtrikman, H; Bar-Joseph, I, Optical spectroscopy of a two-dimensional electron gas near the metal-insulator transition, Physical Review Letters, vol. 74 no. 6 (January, 1995), pp. 976-979, American Physical Society (APS) [doi] [abs] .
  95. Bar‐Joseph, I; Finkelstein, G; Bar‐Ad, S; Shtrikman, H; Levinson, Y, Four‐wave mixing in modulation‐doped GaAs quantum wells under strong magnetic fields, Physica Status Solidi B, vol. 188 no. 1 (January, 1995), pp. 457-463, WILEY [doi] [abs] .
  96. Bar-Ad, S; Bar-Joseph, I; Finkelstein, G; Levinson, Y, Biexcitons in short-pulse optical experiments in strong magnetic fields in GaAs quantum wells, Physical Review B, vol. 50 no. 24 (January, 1994), pp. 18375-18381, American Physical Society (APS) [doi] [abs] .
  97. Finkelstein, G; Bar-Ad, S; Carmel, O; Bar-Joseph, I; Levinson, Y, Biexcitonic effects in transient nonlinear optical experiments in quantum wells, Physical Review B, vol. 47 no. 19 (January, 1993), pp. 12964-12967, American Physical Society (APS) [doi] [abs] .
  98. J. Pieprzyk and G. Finkelstein, Towards effective nonlinear cryptosystem design, Iee Proceedings-e Computers And Digital Techniques, vol. 135 no. 6 (November, 1988), pp. 325 -- 335 .
Preprints
  1. Arnault, EG; Chiles, J; Larson, TFQ; Chen, C-C; Zhao, L; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Multiplet Supercurrents in a Josephson Circuit (August, 2024) .
  2. Zhao, L; Larson, TFQ; Iftikhar, Z; Chiles, J; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Thermal properties of the superconductor-quantum Hall interfaces (June, 2024) .
  3. Zhao, L; Arnault, EG; Larson, TFQ; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Non-local transport measurements in hybrid quantum Hall - superconducting devices (October, 2023) [abs] .
  4. Larson, TFQ; Zhao, L; Arnault, EG; Wei, M-T; Seredinski, A; Li, H; Watanabe, K; Tanaguchi, T; Amet, F; Finkelstein, G, Noise-induced stabilization of dynamical states with broken time-reversal symmetry (December, 2022) [2212.13952] [abs] .
  5. Zhao, L; Iftikhar, Z; Larson, TFQ; Arnault, EG; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Loss and decoherence at the quantum Hall - superconductor interface, vol. 131 no. 17 (October, 2022), pp. 176604 [2210.04842], [doi] [abs] .
  6. Chiles, J; Arnault, EG; Chen, C-C; Larson, TFQ; Zhao, L; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Non-Reciprocal Supercurrents in a Field-Free Graphene Josephson Triode (October, 2022) [2210.02644] [abs] .
  7. Zhao, L; Arnault, EG; Larson, TFQ; Iftikhar, Z; Seredinski, A; Fleming, T; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Graphene-based quantum Hall interferometer with self-aligned side gates (June, 2022) .
  8. Arnault, EG; Idris, S; McConnell, A; Zhao, L; Larson, TFQ; Watanabe, K; Taniguchi, T; Finkelstein, G; Amet, F, Dynamical Stabilization of Multiplet Supercurrents in Multi-terminal Josephson Junctions (January, 2022) .
  9. Ethan G. Arnault, Gleb Finklestein, Athby H. Al-Tawhid, Salva Salmani-Rezaie, David A. Muller, Divine P. Kumah, Mohammad S. Bahramy, and Kaveh Ahadi, Anisotropic Superconductivity at Epitaxial KTaO3(111) interfaces, submitted to Science Advances (2022) [abs] .
  10. Seredinski, A; Arnault, EG; Costa, VZ; Zhao, L; Larson, TFQ; Watanabe, K; Taniguchi, T; Amet, F; Newaz, AKM; Finkelstein, G, One-Dimensional Edge Contact to Encapsulated MoS2 with a Superconductor (January, 2021) .
  11. G. Finkelstein, Inverse AC Josephson Effect in Ballistic Multiterminal Graphene Josephson Junctions, in Proceedings of the Workshop on Innovative Nanoscale Devices and Systems, Hawaii, USA (2021), pp. 103-104 .
  12. Arnault, EG; Larson, T; Seredinski, A; Zhao, L; Idris, S; McConnell, A; Watanabe, K; Taniguchi, T; Borzenets, IV; Amet, F; Finkelstein, G, The Multi-terminal Inverse AC Josephson Effect (December, 2020) .
  13. Larson, TFQ; Zhao, L; Arnault, EG; Wei, MT; Seredinski, A; Li, H; Watanabe, K; Taniguchi, T; Amet, F; Finkelstein, G, Zero-bias crossings and peculiar Shapiro maps in graphene Josephson junctions (March, 2020) .
  14. Ke, CT; Draelos, AW; Seredinski, A; Wei, MT; Li, H; Hernandez-Rivera, M; Watanabe, K; Taniguchi, T; Yamamoto, M; Tarucha, S; Bomze, Y; Borzenets, IV; Amet, F; Finkelstein, G, 2$Φ_{0}$-periodic magnetic interference in ballistic graphene Josephson junctions (June, 2019) .
  15. Bomze, Y; Mebrahtu, H; Borzenets, I; Makarovski, A; Finkelstein, G, Resonant Tunneling in a Dissipative Environment (October, 2010) .
  16. Anders, FB; Logan, DE; Galpin, MR; Finkelstein, G, Zero-bias conductance in carbon nanotube quantum dots (November, 2007) .
  17. Makarovski, A; Zhukov, A; Liu, J; Finkelstein, G, Four-Probe Measurements of Carbon Nanotubes with Narrow Metal Contacts (September, 2007) .
  18. Makarovski, A; Liu, J; Finkelstein, G, Evolution of SU(4) Transport Regimes in Carbon Nanotube Quantum Dots (August, 2006) .
  19. Makarovski, A; An, L; Liu, J; Finkelstein, G, Persistent Orbital Degeneracy in Carbon Nanotubes (August, 2005) .
  20. Glicofridis, PI; Finkelstein, G; Ashoori, RC; Shayegan, M, Direct observation of the charging of a 2D electron gas through an incompressible strip in the quantum Hall regime (October, 2001) .
  21. Finkelstein, G; Glicofridis, PI; Tessmer, SH; Ashoori, RC; Melloch, MR, Imaging of Low Compressibility Strips in the Quantum Hall Liquid (October, 1999) .

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