The Budapest Quantum Optics Group
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The Budapest Quantum Optics Group

List of publications

  1. M. Koniorczyk, Z. Kurucz, A. Gabris, and J. Janszky
    General optical state truncation and its teleportation
    Phys. Rev. A 62 (1), 013802 (2000)
    1. Leonski W, In: Advances in Chemical Physics, Vol. 119, pp. 195–213 (2001)
    2. Miranowicz A, In: Advances in Chemical Physics, Vol. 119, pp. 155–193 (2001)
    3. Ozdemir SK, Physical Review A 64 (6), 063818 (2001)
    4. Fiurasek J, Physical Review A 66 (1), 015801 (2002)
    5. Ozdemir SK, Physical Review A 66 (5), 053809 (2002)
    6. Ozdemir SK, Journal of Modern Optics 49 (5-6), 977–984 (2002)
    7. Resch KJ, Physical Review Letters 88 (11), 113601 (2002)
    8. Babichev SA, Europhysics Letters 64 (1), 1–7 (2003)
    9. Fiurasek J, Physical Review A 68 (4), 042325 (2003)
    10. Kitagawa A, Physical Review A 68 (4), 042324 (2003)
    11. Miranowicz A, In: Proceedings of SPIE - The International Society for Optical Engineering, Vol. 5259, pp. 47–51 (2003)
    12. Miranowicz A, In: 13th Polish-Czech-Slovak Conference on Wave and Quantum Aspects of Contemporary Optics, In: Proceedings of the Society of Photo-Optical Instrumentation Engineers (Spie), Vol. 5259, pp. 47–51 (2003)
    13. Ozdemir SK, Turk. J. Phys. 27 (5), 459–479 (2003)
    14. Kitagawa A, Physical Review A 70 (5), 052311 (2004)
    15. Miranowicz A, Journal of Optics B-Quantum and Semiclassical Optics 6 (3), S43–S46 (2004)
    16. Fiurasek J, Physical Review A 72 (3), 033822 (2005)
    17. Miranowicz A, Journal of Optics B-Quantum and Semiclassical Optics 7 (5), 142–150 (2005)
    18. Said RS, Journal of Physics B-Atomic Molecular and Optical Physics 39 (6), 1269–1274 (2006)
    19. Zhang LH, Communications in Theoretical Physics 46 (4), 610–612 (2006)
    20. Miranowicz A, Journal of the Optical Society of America B-Optical Physics 24 (2), 379–383 (2007)
    21. Said RS, Physics Letters A 365 (5-6), 380–385 (2007)
    22. Podoshvedov SA, Optics Communications 281 (14), 3748–3754 (2008)
    23. Podoshvedov SA, Journal of Experimental and Theoretical Physics 106 (3), 435–441 (2008)
    24. Lee SY, Journal of the Physical Society of Japan 78 (9), 094001 (2009)
    25. Jeffers J, Physical Review A 82 (6), 063828 (2010)
    26. Kim HJ, Journal of the Optical Society of America B-Optical Physics 27 (3), 464–475 (2010)
    27. Kowalewska-Kudlaszyk A, Journal of Physics B-Atomic Molecular and Optical Physics 43 (20), 205503 (2010)
    28. Lee SY, Physical Review A 82 (5), 053812 (2010)
    29. Park J, New Journal of Physics 12, 033019 (2010)
  2. Z. Kurucz, M. Koniorczyk, and J. Janszky
    Teleportation with partially entangled states
    Fortschritte Phys.-Prog. Phys. 49 (10-11), 1019–1025 (2001)
    1. Feng M, European Physical Journal D 29 (2), 189–193 (2004)
    2. Griffiths RB, Physical Review A 73 (5), 052309 (2006)
    3. Wu S, Quantum Information & Computation 7 (8), 782–798 (2007)
    4. Sjoqvist E, EPL 86 (3), 30005 (2009)
    5. Sjoqvist E, Physics Letters A 374 (13-14), 1431–1433 (2010)
    6. Rudolfsson P, Quantum Information & Computation 12 (1-2), 119–137 (2012)
  3. S. Farkas, Z. Kurucz, and M. Weiner
    Poincare covariance of relativistic quantum position
    Int. J. Theor. Phys. 41 (1), 79–88 (2002)
    1. Zamani F, Journal of Mathematical Physics 50 (5), 052302 (2009)
  4. Z. Kurucz, M. Koniorczyk, P. Adam, and J. Janszky
    An operator description of entanglement matching in quantum teleportation
    J. Opt. B-Quantum Semicl. Opt. 5 (6), S627–S632 (2003)
    1. Pati AK, J. Opt. B-Quantum Semicl. Opt. 6 (8), S844–S848 (2004)
    2. Griffiths RB, Physical Review A 73 (5), 052309 (2006)
    3. Jiang TS, Journal of Physics a-Mathematical and General 39 (29), 9215–9222 (2006)
    4. Gabris A, International Journal of Quantum Information 5 (1-2), 17–22 (2007)
    5. Wu S, Quantum Information & Computation 7 (8), 782–798 (2007)
    6. Rudolfsson P, Quantum Information & Computation 12 (1-2), 119–137 (2012)
  5. Z. Kurucz, P. Adam, and J. Janszky
    Simulating measurement statistics in remote state preparation
    Acta Phys. Hung. B 23 (1-2), 49–54 (2005)
  6. Z. Kurucz and P. Adam
    Preparable ensembles for remote state preparation
    J. Opt. B-Quantum Semicl. Opt. 7 (5), 135–138 (2005)
    1. An NB, International Journal of Quantum Information 6 (5), 1051–1066 (2008)
    2. Deng L, Chinese Physics B 17 (10), 3725–3728 (2008)
    3. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 41 (9), 095501 (2008)
    4. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 42 (12), 125501 (2009)
  7. Z. Kurucz, P. Adam, Z. Kis, and J. Janszky
    Continuous variable remote state preparation
    Phys. Rev. A 72 (5), 052315 (2005)
    1. Gui-Xia P, Communications in Theoretical Physics 49 (3), 631–634 (2008)
    2. Hou K, International Journal of Quantum Information 6 (6), 1183–1193 (2008)
    3. Liu YM, Communications in Theoretical Physics 49 (2), 359–364 (2008)
    4. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 41 (9), 095501 (2008)
    5. Pan GX, International Journal of Quantum Information 6 (5), 1101–1113 (2008)
    6. Wang D, Optics Communications 281 (4), 871–875 (2008)
    7. Wu E, International Journal of Theoretical Physics 47 (6), 1600–1605 (2008)
    8. Zhang ZJ, Journal of Physics B-Atomic Molecular and Optical Physics 41 (1), 015503 (2008)
    9. Liang HQ, Acta Physica Sinica 58 (6), 3692–3698 (2009)
    10. Liu JM, EPL 87 (3), 30006 (2009)
    11. Liu JM, Journal of Physics B-Atomic Molecular and Optical Physics 42 (5), 055508 (2009)
    12. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 42 (12), 125501 (2009)
    13. Wang ZY, Communications in Theoretical Physics 52 (2), 235–240 (2009)
    14. Nguyen BA, Optics Communications 283 (20), 4113–4117 (2010)
    15. Pan HJ, International Journal of Quantum Information 8 (8), 1257–1264 (2010)
    16. Shi GF, Modern Physics Letters B 24 (10), 995–1001 (2010)
    17. Wang D, International Journal of Quantum Information 8 (8), 1265–1275 (2010)
    18. Wang MY, Communications in Theoretical Physics 54 (5), 792–796 (2010)
    19. Xia Y, International Journal of Theoretical Physics 49 (9), 2045–2050 (2010)
    20. Zhan YB, Communications in Theoretical Physics 54 (3), 463–468 (2010)
    21. Zhan YB, Chinese Physics B 19 (8), 080310 (2010)
    22. Chen QQ, Optics Communications 284 (20), 5031–5035 (2011)
    23. Han LF, International Journal of Quantum Information 9 (1), 539–546 (2011)
    24. Li YB, International Journal of Quantum Information 9 (6), 1437–1448 (2011)
    25. Luo MX, International Journal of Quantum Information 9 (5), 1267–1278 (2011)
    26. Ma SY, Optics Communications 284 (16-17), 4088–4093 (2011)
    27. Solis-Prosser MA, Physical Review A 84 (1), 012330 (2011)
    28. Song JF, International Journal of Theoretical Physics 50 (8), 2410–2425 (2011)
    29. Wang D, International Journal of Theoretical Physics 50 (9), 2748–2757 (2011)
    30. Wang ZY, Communications in Theoretical Physics 55 (2), 244–250 (2011)
    31. Wang ZY, International Journal of Quantum Information 9 (2), 809–822 (2011)
    32. Xiao XQ, Journal of Physics B-Atomic Molecular and Optical Physics 44 (7), 075501 (2011)
    33. Zhan YB, Journal of Physics B-Atomic Molecular and Optical Physics 44 (9), 095501 (2011)
    34. Zhang ZJ, Journal of Physics B-Atomic Molecular and Optical Physics 44 (16), 165508 (2011)
    35. Jia HY, International Journal of Theoretical Physics 51 (7), 2086–2093 (2012)
    36. Su Y, International Journal of Quantum Information 10 (1), 1250006 (2012)
    37. Zhan YB, EPL 98 (4), 40005 (2012)
    38. Zhang YL, International Journal of Quantum Information 10 (3), 1250030 (2012)
  8. Z. Kurucz, P. Adam, and J. Janszky
    Remote state preparation in quadrature basis
    Acta Phys. Hung. B 26 (3-4), 319–326 (2006)
  9. Z. Kurucz, P. Adam, and J. Janszky
    General criterion for oblivious remote state preparation
    Phys. Rev. A 73 (6), 062301 (2006)
    1. An NB, International Journal of Quantum Information 6 (5), 1051–1066 (2008)
    2. Gui-Xia P, Communications in Theoretical Physics 49 (3), 631–634 (2008)
    3. Liu YM, Communications in Theoretical Physics 49 (2), 359–364 (2008)
    4. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 41 (9), 095501 (2008)
    5. Pan GX, International Journal of Quantum Information 6 (5), 1101–1113 (2008)
    6. Wang D, Optics Communications 281 (4), 871–875 (2008)
    7. Zhang ZJ, Journal of Physics B-Atomic Molecular and Optical Physics 41 (1), 015503 (2008)
    8. Liu JM, EPL 87 (3), 30006 (2009)
    9. Liu YM, International Journal of Quantum Information 7 (5), 991–999 (2009)
    10. Nguyen BA, Journal of Physics B-Atomic Molecular and Optical Physics 42 (12), 125501 (2009)
    11. Wang YW, Acta Physica Sinica 58 (11), 7668–7671 (2009)
    12. Wang ZY, Communications in Theoretical Physics 52 (2), 235–240 (2009)
    13. Wang D, International Journal of Quantum Information 8 (8), 1265–1275 (2010)
    14. Wang MY, Communications in Theoretical Physics 54 (5), 792–796 (2010)
    15. Wang ZY, International Journal of Theoretical Physics 49 (6), 1357–1369 (2010)
    16. Li YB, International Journal of Quantum Information 9 (6), 1437–1448 (2011)
    17. Liu HH, International Journal of Theoretical Physics 50 (10), 3023–3032 (2011)
    18. Song JF, International Journal of Theoretical Physics 50 (8), 2410–2425 (2011)
    19. Wang D, International Journal of Theoretical Physics 50 (9), 2748–2757 (2011)
    20. Wang ZY, International Journal of Quantum Information 9 (2), 809–822 (2011)
    21. Wang ZY, Communications in Theoretical Physics 55 (2), 244–250 (2011)
    22. Zha XW, Physica Scripta 84 (1), 015010 (2011)
    23. Zhang ZJ, Journal of Physics B-Atomic Molecular and Optical Physics 44 (16), 165508 (2011)
    24. Zhang YL, International Journal of Quantum Information 10 (3), 1250030 (2012)
  10. Z. Kurucz and M. Fleischhauer
    Continuous-variable versus electromagnetically-induced-transparency-based quantum memories
    Phys. Rev. A 78 (2), 023805 (2008)
    1. Surmacz K, Physical Review A 78 (3), 033806 (2008)
    2. Alhasan AM, Physical Review A 80 (3), 033809 (2009)
    3. Jing H, European Physical Journal D 55 (1), 167–171 (2009)
    4. Hammerer K, Reviews of Modern Physics 82 (2), 1041–1093 (2010)
    5. Schwager H, New Journal of Physics 12, 043026 (2010)
    6. Sefi S, Physical Review Letters 107 (17), 170501 (2011)
  11. Z. Kurucz, M. W. Sørensen, J. M. Taylor, M. Fleischhauer, and M. D. Lukin
    Qubit Protection in Nuclear-Spin Quantum Dot Memories
    Phys. Rev. Lett. 103 (1), 010502 (2009)
    1. Auer T, Physical Review B 80 (20), 205303 (2009)
    2. Bortz M, Physical Review B 81 (3), 035315 (2010)
    3. Schwager H, New Journal of Physics 12, 043026 (2010)
    4. Schwager H, Physical Review B 81 (4), 045309 (2010)
    5. Wu LA, Physical Review A 81 (4), 044305 (2010)
    6. Diniz I, Physical Review A 84 (6), 063810 (2011)
    7. Wu LA, Journal of Physics a-Mathematical and Theoretical 44 (32), 325302 (2011)
  12. Z. Kurucz and K. Mølmer
    Multilevel Holstein-Primakoff approximation and its application to atomic spin squeezing and ensemble quantum memories
    Phys. Rev. A 81 (3), 032314 (2010)
    1. Ma J, Physics Reports-Review Section of Physics Letters 509 (2-3), 89–165 (2011)
    2. Vitagliano G, Physical Review Letters 107 (24), 240502 (2011)
    3. Rochester SM, Physical Review A 85 (2), 022125 (2012)
  13. Z. Kurucz, J. H. Wesenberg, and K. Mølmer
    Spectroscopic properties of inhomogeneously broadened spin ensembles in a cavity
    Phys. Rev. A 83 (5), 053852 (2011)
    1. Amsuss R, Physical Review Letters 107 (6), 060502 (2011)
    2. Bushev P, Physical Review B 84 (6), 060501 (2011)
    3. Diniz I, Physical Review A 84 (6), 063810 (2011)
    4. Halm S, Applied Physics Letters 99 (18), 181121 (2011)
    5. Honer J, Physical Review Letters 107 (9), 093601 (2011)
    6. Kubo Y, Physical Review Letters 107 (22), 220501 (2011)
    7. Bensky G, Physical Review A 86 (1), 012310 (2012)
    8. Kubo Y, Physical Review A 85 (1), 012333 (2012)
    9. Kubo Y, Physical Review B 86 (6), 064514 (2012)
    10. Sandner K, Physical Review A 85 (5), 053806 (2012)
  14. J. H. Wesenberg, Z. Kurucz, and K. Mølmer
    Dynamics of the collective modes of an inhomogeneous spin ensemble in a cavity
    Phys. Rev. A 83 (2), 023826 (2011)
    1. Bensky G, Quantum Information Processing 10 (6), 1037–1060 (2011)
    2. Albert M, Physical Review A 85 (2), 023818 (2012)


Total count of publications: 14
Total count of listed independent citations: 136

Page last modified on September 02, 2016, at 04:13 PM