The Theory Group

Physics in High Magnetic Fields

I.D.Vagner

Grenoble High Magnetic Field Laboratory (CNRS-MPI)
166X, F-48042, Grenoble, Cedex 9, France.
Tel: +33-4-76-88-11-27; Fax: +33-4-76-85-56-10.
E-Mail: vagner@labs.polycnrs-gre.fr

Physical Engineering Research Institute (PERI)
Ruppin Instutute for Higher Education
Emek Hefer 40250, Israel.
Tel: (+972)-9898-1340, (+972)-9898-3042;
Fax: (+972)-9898-6848
E-mail: perinst@netvision.net.il



Mesoscopics



          Review
2002
  1. P. Malits, A. Kaplunovsky, I.D. Vagner and P. Wyder ''Spectrum of electrons confined to rotationally symmetric nanoparticles'' Nano Letters 2, 9, 915-918 (2002)
  2. V. Privman, D. Mozyrsky and I.D. Vagner ''Quantum computing with spin qubits in semiconductor structures'' Computer Physics Communications 146, 3, 15, 331-338 (2002) ; cond-mat/0102308
2001
  1. T.Maniv, Yu. A. Bychkov, I.D. Vagner and P. Wyder ''Fast Incomplete Decoherence of Nuclear Spins in Quantum Hall Ferromagnet''  Phys. Rev. B 64, 15, 193306 (2001).
  2. I. Shlimak, V.I. Safarov, I.D. Vagner ''Isotopically engineered Silicon/Silicon-Germanium nanostructures as basic elements for a nuclear spin quantum computer'' J. Phys.: Condens. Matter 13, 6059-6065 (2001)
2000
  1. A.M. Dyugaev, W.Glaberson, A.S. Rozhavsky, I.D. Vagner, and P. Wyder ''Levitating Mesoscopic Electron Structures above the Liquid He Surface '' 
  2. V.L. Gurevich and I.D. Vagner ''Hyperfine field driven giant quantum oscillations of ultrasonic absorption''  (22nd International Conference on Low Temperature Physics, Espoo and Helsinki, Finland, August 4 - 11, 1999) Physica B: Condensed Matter 284-288, 1-4, 1876-1877, (2000)
  3. D. Mozyrsky, V. Privman, I.D. Vagner ''Nuclear Spin Qubit Dephasing Time in the Integer Quantum Hall Effect Regime''  http://xxx.lanl.gov/abs/cond-mat/0002350
  4. Yu.V. Pershin, I.D. Vagner, P. Wyder ''Indirect hyperfine interaction between nuclear spins embedded into a mesoscopic ring'' 
  5. A. Zyuzin, B. Spivak, I. Vagner, and P.Wyder ''Mesoscopic mechanism of exchange interaction in magnetic multilayers''.  Physical Review B, 62, 21, 13899-13902 (2000)
1999
  1. E.V. Bezuglyi, A.S. Rozhavsky, I.D. Vagner, and P.Wyder ''Effect of Spin-orbit and Hyperfine Interactions on a Supercurrent in a S-2DEG-S Structure'' Submitted to PRL
  2. P.Malits, A. Kaplunovsky, I. D. Vagner, and P. Wyder ''Electrons on rotationally symmetric nanoparticles under a strong magnetic field''
  3. P.Malits and I. D. Vagner ''Electron on an Arbitrary Sufrace of Revolution in a Magnetic Field''.  J. Phys. A: Math. Gen. 32, 1507 (1999)

1998

  1. H. Bednarski, V. Fleurov and I.D.Vagner ''Magnetic versus hyperfine field in the anomalous Hall effect''  Physica B 256-258, 641 (1998)
  2. A.M. Dyugaev, A.S. Rozhavski, I.D. Vagner, P. Wyder ''Aharonov-Bohm effect for electrons on a liquid-helium surface''  Jetp Letters, 67, 6, 434-439 (1998)
  3. V. Privman, I.D. Vagner and G. Kventsel ''Quantum computing in quantum Hall systems.'' , Phys.Lett. A, 239, 141 (1998)
  4. I.D. Vagner, A.S. Rozhavsky, P. Wyder, and A.Yu. Zyuzin ''Is the magnetic field necessary for the Aharonov-Bohm effect in mesoscopics?''  Phys. Rev. Lett. 80, 2417 (1998)

Archive

  1. I.D. Vagner, A.S. Rozhavsky, and P. Wyder ''Hyperfine-interaction-driven Aharonov-Bohm effect in mesoscopic rings''  Low-Temp. Phys. 23, 12, 980-982 (1997)
  2. V.I. Fal'ko ''The Aharonov-Bohm effect in a mesoscopic ring of diluted magnetic alloy''  J. Phys.: Condens. Matter 4, 3943 (1992)
  3. Ju H. Kim, I.D. Vagner and B. Sundaram ''Electrons Confined on the Surface of a Sphere in a Magnetic Field''  Phys. Rev. B 46, 9501 (1992)



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