Publications

  1. Song M. S., Houben L., Zhao Y., Bae H., Rothem N., Gupta A., Yan B., Kalisky B., Zaluska-Kotur M., Kacman P., Shtrikman H. & Beidenkopf H.. Topotaxial mutual-exchange growth of magnetic Zintl Eu3In2As4 nanowires with axion insulator classification.  Nature Nanotechnology, (2024).
  2. Shtrikman H., Song M. S., Załuska-Kotur M. A., Buczko R., Wang X., Kalisky B., Kacman P., Houben L. & Beidenkopf H.. Intrinsic Magnetic (EuIn)As Nanowire Shells with a Unique Crystal Structure.  Nano Letters, 22, 8925-8931 (2022).
  3. Song M. S., Koren T., Zaluska-Kotur M. A., Buczko R., Avraham N., Kacman P., Shtrikman H. & Beidenkopf H.. Sub-Band Spectrum Engineering via Structural Order in Tapered Nanowires.  Nano Letters, 21, 10215-10221 (2021).
  4. Mitra R., Sahu M. R., Watanabe K., Taniguchi T., Shtrikman H., Sood A. K. & Das A.. Anomalous Coulomb Drag between InAs Nanowire and Graphene Heterostructures.  Physical Review Letters, 124, (2020).
  5. Reiner J., Nayak A. K., Tulchinsky A., Steinbok A., Koren T., Morali N., Batabyal R., Kang J., Avraham N., Oreg Y., Shtrikman H. & Beidenkopf H.. Spectroscopic Visualization of a Robust Electronic Response of Semiconducting Nanowires to Deposition of Superconducting Islands.  Physical Review X, 10, (2020).
  6. Grivnin A., Bor E., Heiblum M., Oreg Y. & Shtrikman H.. Concomitant opening of a bulk-gap with an emerging possible Majorana zero mode.  Nature Communications, 10, (2019).
  7. Kang J., Krizek F., Zaluska-Kotur M., Krogstrup P., Kacman P., Beidenkopf H. & Shtrikman H.. Au-Assisted Substrate-Faceting for Inclined Nanowire Growth.  Nano Letters, 18, 4115-4122 (2018).
  8. Cohen Y., Ronen Y., Kang J., Heiblum M., Feinberg D., Melin R. & Shtrikman H.. Nonlocal supercurrent of quartets in a three-terminal Josephson junction.  Proceedings Of The National Academy Of Sciences Of The United States Of America-Biological Sciences, 115, 6991-6994 (2018).
  9. Reiner J., Nayak A. K., Avraham N., Norris A., Yan B., Fulga I. C., Kang J., Karzig T., Shtrikman H. & Beidenkopf H.. Hot Electrons Regain Coherence in Semiconducting Nanowires.  Physical Review X, 7, (2017).
  10. Kang J., Galicka M., Kaman P. & Shtrikman H.. Wurtzite/Zinc-Blende K'-shape InAs Nanowires with Embedded Two-Dimensional Wurtzite Plates.  Nano Letters, 17, 531-537 (2017).
  11. Kang J., Grivnin A., Bor E., Reiner J., Avraham N., Ronen Y., Cohen Y., Kacman P., Shtrikman H. & Beidenkopf H.. Robust Epitaxial Al Coating of Reclined InAs Nanowires.  Nano Letters, 17, 7520-7527 (2017).
  12. Hevroni R., Shelukhin V., Karpovski M., Goldstein M., Sela E., Palevski A. & Shtrikman H.. Interplay of Coulomb Blockade and Luttinger-Liquid Physics in Disordered 1D InAs Nanowires with Strong Spin-Orbit Coupling.  , 233-241 (2016).
  13. Kang J., Ronen Y., Cohen Y., Convertino D., Rossi A., Coletti C., Heun S., Sorba L., Kacman P. & Shtrikman H.. MBE growth of self-assisted InAs nanowires on graphene.  Semiconductor Science and Technology, 31, (2016).
  14. Hevroni R., Shelukhin V., Karpovski M., Goldstein M., Sela E., Shtrikman H. & Palevski A.. Suppression of Coulomb blockade peaks by electronic correlations in InAs nanowires.  Physical Review B, 93, (2016).
  15. Ronen Y., Cohen Y., Kang J., Haim A., Rieder M., Heiblum M., Mahalu D. & Shtrikman H.. Charge of a quasiparticle in a superconductor.  Proceedings of the National Academy of Sciences of the United States of America, 113, 1743-1748 (2016).
  16. Keller A. J., Lim J. S., Sanchez D., Lopez R., Amasha S., Katine J. A., Shtrikman H. & Goldhaber-Gordon D.. Cotunneling Drag Effect in Coulomb-Coupled Quantum Dots.  Physical review letters, 117, (2016).
  17. Halpern E., Henning A., Shtrikman H., Rurali R., Cartoixà X. & Rosenwaks Y.. Room temperature observation of quantum confinement in single InAs nanowires.  Nano Letters, 15, 481-485 (2015).
  18. Jadczak J., Plochocka P., Mitioglu A., Breslavetz I., Royo M., Bertoni A., Goldoni G., Smolenski T., Kossacki P., Kretinin A., Shtrikman H. & Maude D. K.. Unintentional high-density p-type modulation doping of a GaAs/alas core-multishell nanowire.  Nano Letters, 14, 2807-2814 (2014).
  19. Keller A., Amasha S., Weymann I., Moca C., Rau I., Katine J., Shtrikman H., Zarand G. & Goldhaber-Gordon D.. Emergent SU(4) Kondo physics in a spin-charge-entangled double quantum dot.  Nature Physics, 10, 145-150 (2014).
  20. Halpern E., Cohen G., Gross S., Henning A., Matok M., Kretinin A., Shtrikman H. & Rosenwaks Y.. Measuring surface state density and energy distribution in InAs nanowires.  Physica Status Solidi A-Applications And Materials Science, 211, 473-482 (2014).
  21. Chen G., Sun G., Ding Y. J., Prete P., Miccoli I., Lovergine N., Shtrikman H., Kung P., Livneh T. & Spanier J. E.. Direct measurement of band edge discontinuity in individual core-shell nanowires by photocurrent spectroscopy.  Nano Letters, 13, 4152-4157 (2013).
  22. Palenskis V., Matukas J., Vyšniauskas J., Pralgauskaite S., Shtrikman H., Seliuta D., Kašalynas I. & Valušis G.. Analysis of noise characteristics of GaAs tunnel diodes.  Fluctuation and Noise Letters, 12, (2013).
  23. Galicka M., Buczko R., Kacman P., Lima E. N., Schmidt T. M. & Shtrikman H.. First principles studies of structural, electrical and magnetic properties of semiconductor nanowires.  Physica Status Solidi-Rapid Research Letters, 7, 739-753 (2013).
  24. Kang J., Cohen Y., Ronen Y., Heiblum M., Buczko R., Kacman P., Popovitz-Biro R. & Shtrikman H.. Crystal Structure and Transport in Merged InAs Nanowires MBE Grown on (001) InAs.  Nano Letters, 13, 5190-5196 (2013).
  25. Plochocka P., Mitioglu A. A., Maude D. K., Rikken G. L. J. A., del Aguila A. A. G., Christianen P. C. M., Kacman P. & Shtrikman H.. High magnetic field reveals the nature of excitons in a single GaAs/AlAs core/shell nanowire.  Nano Letters, 13, 2442-2447 (2013).
  26. Amasha S., Keller A. J., Rau I. G., Carmi A., Katine J. A., Shtrikman H., Oreg Y. & Goldhaber-Gordon D.. Pseudospin-resolved transport spectroscopy of the kondo effect in a double quantum dot.  Physical review letters, 110, (2013).
  27. Estrin Y., Rich D. H., Kretinin A. V. & Shtrikman H.. Influence of metal deposition on exciton-surface plasmon polariton coupling in GaAs/AlAs/GaAs core-shell nanowires studied with time-resolved cathodoluminescence.  Nano Letters, 13, 1602-1610 (2013).
  28. Bar-Sadan M., Barthel J., Shtrikman H. & Houben L.. Direct imaging of single Au atoms within GaAs nanowires.  Nano Letters, 12, 2352-2356 (2012).
  29. Kretinin A. V., Shtrikman H. & Mahalu D.. Universal line shape of the Kondo zero-bias anomaly in a quantum dot.  Physical Review B, 85, (2012).
  30. Halpern E., Elias G., Kretinin A. V., Shtrikman H. & Rosenwaks Y.. Direct measurement of surface states density and energy distribution in individual InAs nanowires.  Applied Physics Letters, 100, (2012).
  31. Das A., Ronen Y., Most Y., Oreg Y., Heiblum M. & Shtrikman H.. Zero-bias peaks and splitting in an Al-InAs nanowire topological superconductor as a signature of Majorana fermions.  Nature Physics, 8, 887-895 (2012).
  32. Das A., Ronen Y., Heiblum M., Mahalu D., Kretinin A. V. & Shtrikman H.. High-efficiency Cooper pair splitting demonstrated by two-particle conductance resonance and positive noise cross-correlation.  Nature Communications, 3, (2012).
  33. Popovitz-Biro R., Kretinin A., Von Huth P. & Shtrikman H.. InAs/GaAs core-shell nanowires.  Crystal Growth & Design, 11, 3858-3865 (2011).
  34. Amasha S., Rau I. G., Grobis M., Potok R. M., Shtrikman H. & Goldhaber-Gordon D.. Coulomb Blockade in an Open Quantum Dot.  Physical Review Letters, 107, (2011).
  35. Sternfeld I., Levy E., Eshkol M., Tsukernik A., Karpovski M., Shtrikman H., Kretinin A. & Palevski A.. Magnetoresistance oscillations of superconducting al-film cylinders covering InAs nanowires below the quantum critical point.  Physical review letters, 107, (2011).
  36. Shtrikman H., Popovitz-Biro R., Kretinin A. V. & Kacman P.. GaAs and InAs Nanowires for Ballistic Transport.  IEEE Journal of Selected Topics in Quantum Electronics, 17, 922-934 (2011).
  37. Kretinin A. V., Shtrikman H., Goldhaber-Gordon D., Hanl M., Weichselbaum A., Von Delft J., Costi T. & Mahalu D.. Spin-12 Kondo effect in an InAs nanowire quantum dot: Unitary limit, conductance scaling, and Zeeman splitting.  Physical Review B, 84, (2011).
  38. Kretinin A. V., Popovitz-Biro R., Mahalu D., Oreg Y., Heiblum M. & Shtrikman H.. The Kondo effect and coherent transport in stacking-faults-free wurtzite InAs nanowires.  , 1399, 327-328 (2011).
  39. Kretinin A. V., Popovitz-Biro R., Mahalu D. & Shtrikman H.. Multimode Fabry-Pérot conductance oscillations in suspended stacking-faults-free InAs nanowires.  Nano Letters, 10, 3439-3445 (2010).
  40. Krogstrup P., Popovitz-Biro R., Johnson E., Madsen M. H., Nygård J. & Shtrikman H.. Structural phase control in self-catalyzed growth of GaAs nanowires on silicon (111).  Nano Letters, 10, 4475-4482 (2010).
  41. Shtrikman H., Popovitz-Biro R., Von Huth P., Kretinin A. & Heiblum M.. Core-shell GaAs-AlAs nanowires grown by MBE.  , 103-104 (2010).
  42. Altuntaş H., Altindal Ş., Özçelik S. & Shtrikman H.. Electrical characteristics of Au/n-GaAs Schottky barrier diodes with and without SiO2 insulator layer at room temperature.  Vacuum, 83, 1060-1065 (2009).
  43. Shtrikman H., Popovitz-Biro R., Kretinin A. & Heiblum M.. Stacking-faults-free zinc blende GaAs nanowires.  Nano Letters, 9, 215-219 (2009).
  44. McHugh S., Jaafar R., Sarachik M. P., Myasoedov Y., Shtrikman H., Zeldov E., Bagai R. & Christou G.. Experimental determination of the dipolar field in Mn12 -acetate.  Physical Review B, 79, (2009).
  45. Altuntaş H., Altindal Ş., Shtrikman H. & Özçelik S.. A detailed study of current-voltage characteristics in Au/SiO2/n-GaAs in wide temperature range.  Microelectronics Reliability, 49, 904-911 (2009).
  46. Shtrikman H., Popovitz-Biro R., Kretinin A., Houben L., Heiblum M., Bukala M., Galicka M., Buczko R. & Kacman P.. Method for suppression of stacking faults in wurtzite III-V nanowires.  Nano Letters, 9, 1506-1510 (2009).
  47. Bukała M., Galicka M., Buczko R., Kacman P., Shtrikman H., Popovitz-Biro R., Kretinin A. & Heiblum M.. What determines the crystal structure of nanowires?.  , 349-350 (2009).
Last Updated: Thursday, November 14, 2024 - 17:00