ARTICLES

2020

  1. DNA-assembled superconducting 3D nanoscale architectures, L. Shani, A. Michelson, B. Minevich, Y. Fleger, M. Stern, A. Shaulov & Y. Yeshurun, Nature Communications, 11, 5697 (2020)

2018

  1. Experimental study of the exciton gas-liquid transition in coupled quantum wells S. Misra, M. Stern, A. Joshua, V. Umansky and I. Bar-Joseph, Phys. Rev. Lett., 120, 047402 (2018).

2016

  1. Controlling spin relaxation with a cavity, A. Bienfait J.J. Pla, Y. Kubo, X. Zhou, M. Stern; C.C. Lo; C.D. Weiss, T. Schenkel, D. Vion; D. Esteve; J.J.L. Morton & P. Bertet, Nature, 531, 74-77 (2016).

2015

  1. Reaching the quantum limit of sensitivity in electron spin,  A. Bienfait, J.J. Pla, Y. Kubo, M. Stern, X. Zhou, C.C. Lo; C.D. Weiss, T. Schenkel, M.L.W. Thewalt, D. Vion; D. Esteve, B. Julsgaard, K. Molmer, J.J.L. Morton & P. Bertet, Nature Nanotechnology, 282,1038 (2015).
  2. Coupling a single Nitrogen-Vacancy center to a superconducting flux qubit in the far-off resonance regime, T Douce, M. Stern, N. Zagury, P. Bertet and P. Millman, Phys Rev A, 92, 052335.
  3. Coherent manipulation of Andreev states in superconducting atomic contacts, CJanvier, L. Tosi, L. Bretheau, C.O. Girit, M. Stern, P. Bertet, P. Joyez, D. Vion, D. Esteve, M.F. Goffman, H. Pothier & C. Urbina,  Science, 349, 1199 (2015).
  4. Storage and retrieval of microwave field at the single photon level in a spin ensemble, Grezes, B. Julsgaard, Y. Kubo, M. Stern, A. Bienfait, K. Nakamura, J. Isoya,, S. Onoda, T. Ohshima, V. Jacques, D. Vion, D. Esteve, R.B. Liu, K. Molmer and P.Bertet,  Phys. Rev. A, 92, 020301(R) (2015).

2014

  1. Flux qubits with long coherence times for hybrid quantum circuits, M. Stern, G. Catelani,Y. Kubo, C. Grezes, D. Vion, P. Bertet & D. Esteve,  Phys. Rev. Lett., 113, 123601 (2014).
  2. Multi-mode storage and retrieval of microwave fields in a spin ensemble, Grezes, B. Julsgaard, Y. Kubo, M. Stern, T. Umeda, J. Isoya, H. Sumiya, H. Abe, S. Onoda, T. Ohshima, V. Jacques, J. Esteve, D. Vion, D. Esteve, K. Molmer and P.Bertet,  Phys. Rev. X, 4, 021049 (2014).
  3. Exciton Liquid in Coupled Quantum Wells, MStern, V. Umansky and I. Bar-Joseph,  Science, 343, 55 (2014).

2012

  1. NMR Probing of the Spin Polarization of the ν=5/2 Quantum Hall State, M. Stern, B. Piot, Y. Vardi, V. Umansky, P. Plochocka, D. K. Maude and I. Bar-Joseph,  Phys. Rev. Lett., 108, 066810, (2012).
  2. Exciton–Plasmon Interactions in Quantum Dot–Gold Nanoparticle Structures, Eyal Cohen-Hoshen, Garnett W. Bryant, Iddo Pinkas, Joseph Sperling, and Israel Bar-Joseph, Nano Letters 12 (8), 4260-4264 (2012)

2011 and before

  1. Self-assembly of metallic double-dot single-electron deviceGuttman, A., Mahalu, D., Sperling, J., Cohen-Hoshen, E., and Bar-Joseph, I., Applied Physics Letters, 99, 063113 (2011).
  2. Optical Probing of the Spin Polarization of the ν=5/2 Quantum Hall State, M. Stern, P. Plochocka, V. Umansky, D. K. Maude, M. Potemski and I. Bar-Joseph,  Phys. Rev. Lett., 105, 096801 (2010).
  3. Stern et al.:ReplyM. Stern, V. Garmider, E. Segre, M. Rappaport, V. Umansky, I. Bar-Joseph, , Phys. Rev. Lett., 104, 179702 (2010).
  4. Photoluminescence ring formation in coupled quantum wells: Excitonic versus ambipolar diffusionStern, V. Garmider, E. Segre, M. Rappaport, V. Umansky, Y. Levinson and I. Bar-Joseph, Phys. Rev. Lett., 101, 257402 (2008).
  5. Mott Transition of Excitons in Coupled Quantum Wells, M. Stern, V. Garmider, V. Umansky and I. Bar-Joseph, Phys. Rev. Lett., 100, 256402 (2008).