Selected publications of Adam Miranowicz\ in reverse chronological order

Selected publications of Adam Miranowicz
in reverse chronological order

last updated on Nov 26, 2022

see also my papers at Google Scholar  and arXiv.org 

Preprints

  1. /189/ Ievgen I. Arkhipov, Adam Miranowicz, Fabrizio Minganti, Şahin K. Özdemir, Franco Nori:
    Dynamically encircling an exceptional curve by crossing diabolic points: A programmable multimode switch,
    e-print arXiv:2210.14840 . [PDF] 
    (submitted on 26 Oct 2022)
    Keywords: [quantum dissipative engineering], [exceptional points], [non-Hermitian Hamiltonians]
  2. /188/ Ye-Hong Chen, Adam Miranowicz, Neill Lambert, Wei Qin, Roberto Stassi, Yan Xia, Shi-Biao Zheng, Franco Nori:
    Sudden Change of the Photon Output Field as a Signature of a Quantum Phase Transition in the Quantum Rabi Model,
    e-print arXiv:2207.12156 . [PDF] 
    (submitted on 25 July 2022) . 
    Keywords: [quantum phase transitions], [Rabi model], [ultrastrong coupling (USC) of light and matter]
  3. /187/ Ri-Hua Zheng, Wen Ning, Ye-Hong Chen, Jia-Hao Lü, Li-Tuo Shen, Kai Xu, Yu-Ran Zhang, Da Xu, Hekang Li, Yan Xia, Fan Wu, Zhen-Biao Yang, Adam Miranowicz, Neill Lambert, Dongning Zheng, Heng Fan, Franco Nori, Shi-Biao Zheng:
    Emergent Schrödinger cat states during superradiant phase transitions,
    e-print arXiv:2207.05512 . [PDF] 
    (submitted on 12 July 2022)
    Keywords: [experiment], [Schrödinger cat states], [quantum dissipative engineering]
  4. /186/ Ievgen I. Arkhipov, Adam Miranowicz, Franco Nori, Sahin K. Özdemir, Fabrizio Minganti:
    Tensor Product States in the Synthetic Space of Quadratic Bosonic Systems:
    Emergent Interplay Between Diabolic and Exceptional Degeneracy,
    e-print arXiv:2206.14779 . [PDF] 
    (submitted on 30 June 2022) . 
    Keywords: [quantum dissipative engineering], [exceptional points], [non-Hermitian Hamiltonians]
  5. /185/ Jan Perina Jr, Adam Miranowicz, Grzegorz Chimczak, Anna Kowalewska-Kudlaszyk:
    Quantum Liouvillian exceptional and diabolical points for bosonic fields with quadratic Hamiltonians:
    The Heisenberg-Langevin equation approach,
    e-print arXiv:2206.14745 . [PDF] 
    (submitted on 30 June 2022)
    Keywords: [quantum dissipative engineering], [exceptional points], [non-Hermitian Hamiltonians]
  6. /184/ Kuan-Yi Lee, Jhen-Dong Lin, Adam Miranowicz, Franco Nori, Huan-Yu Ku, and Yueh-Nan Chen:
    Steering-enhanced quantum metrology using superpositions of quantum channels,
    e-print arXiv:2206.03760 . [PDF] 
    (submitted on 8 June 2022) . 
    Keywords: [quantum metrology], [steering], [entanglement], [IBMQ experiment], [quantum channels]
  7. /183/ Alberto Mercurio, Shilan Abo, Fabio Mauceri, Enrico Russo, Vincenzo Macri, Adam Miranowicz, Salvatore Savasta, and Omar Di Stefano:
    Pure Dephasing of Light-Matter Systems in the Ultrastrong and Deep-Strong Coupling Regimes,
    e-print arXiv:arXiv:2205.05352 . [PDF] 
    (submitted on 12 May 2022) . 
    Keywords: [ultrastrong coupling (USC) of light and matter], [deep-strong coupling (DSC)], [generalized master], [quantum Rabi model], [Hopfield model], [Coulomb gauge], [dipole gauge]
  8. /182/ Chia-Yi Ju, Adam Miranowicz, Yueh-Nan Chen, Guang-Yin Chen, Franco Nori:
    Emergent Parallel Transports and Curvatures in Non-Hermitian Quantum Mechanics,
    e-print arXiv:arXiv:2204.05657 . [PDF] 
    (submitted on 12 Apr 2022) . 
    Keywords: [non-Hermitian quantum mechanics], [general relativity], [geometry of Hilbert space bundle], [geometric interpretation of Schrödinger equation], [parallel transport], [Berry curvature], [fidelity susceptibility], [Christoffel symbol], [gauge symmetry]
  9. /181/ F. Minganti, I.I. Arkhipov, A. Miranowicz, F. Nori:
    Correspondence between Dissipative Phase Transitions of Light and Time Crystals,
    e-print arXiv:2008.08075 . [PDF]  .  [citations]
    Keywords: [dissipative phase transitions], [time crystals], [quantum dissipative engineering], [Liouvillians], [quantum trajectories]

Articles accepted for publication

  1. /180/ Ye-Hong Chen, Adam Miranowicz, Xi Chen, Yan Xia, Franco Nori:
    Enhanced-Fidelity Ultrafast Geometric Quantum Computation Using Strong Classical Drives,
    to appear in Phys. Rev. Applied (2022),  e-print arXiv:arXiv:2203.06831 . [PDF] 
    (accepted on 23 Nov 2022) . 
    Keywords: [geometric quantum computation], [beyond rotating-wave approximation]

Publications

2022

2022#10
/179/ Shilan Abo, Grzegorz Chimczak, Anna Kowalewska-Kudlaszyk, Jan Perina Jr., Ravindra Chhajlany, Adam Miranowicz:
Hybrid photon-phonon blockade,
Scientific Reports 12, 17655 (2022),  e-print arXiv:2207.09388 . [PDF] 
DOI: 10.1038/s41598-022-21267-4
(published on 21 Oct 2022)
Keywords: [photon blockade], [phonon blockade], [photon-induced tunneling (PIT)], [photon antibunching], [quantum dissipative engineering], [circuit QED], [quantum optomechanics]
2022#9
/178/ Wei Qin, Adam Miranowicz, and Franco Nori:
Beating the 3 dB Limit for Intracavity Squeezing and Its Application to Nondemolition Qubit Readout,
Phys. Rev. Lett. 129, 123602 (2022),  e-print arXiv:2203.06892 . [PDF]  [supplement] 
DOI: 10.1103/PhysRevLett.129.123602
(published on 14 Sep 2022)
Keywords: [squeezing of light], [quantum parametric amplifier], [nondemolition qubit readout]
2022#8
/177/ Rui Xu, Deng-Gao Lai, Bang-Pin Hou, Adam Miranowicz, and Franco Nori,
Millionfold improvement in multivibration-feedback optomechanical refrigeration via auxiliary mechanical coupling,
e-print arXiv:arXiv:2209.14760 . [PDF] 
Phys. Rev. A 106, 033509 (2022),  [PDF] 
DOI: 10.1103/PhysRevA.106.033509
(published on 13 Sep 2022)
Keywords: [cavity optomechanics], [cooling], [entanglement]
2022#7
/176/ Y.-H. Chen, R. Stassi, W. Qin, A. Miranowicz, F. Nori:
Fault-Tolerant Multiqubit Geometric Entangling Gates Using Photonic Cat-State Qubits,
Phys. Rev. Applied 18, 024076 (2022),  e-print arXiv:2109.04643 . [PDF] 
DOI: 10.1103/PhysRevApplied.18.024076
(published on August 29, 2022)
Keywords: [fault-tolerant quantum gates], [Schrödinger cat states], [quantum dissipative engineering]
2022#6
/175/ Deng-Gao Lai, Ye-Hong Chen, Wei Qin, Adam Miranowicz, and Franco Nori:
Tripartite optomechanical entanglement via optical-dark-mode control,
Phys. Rev. Research 4, 033112 (2022)  [PDF] 
DOI: 10.1103/PhysRevResearch.4.033112
(published on August 10, 2022)
Keywords: [cavity optomechanics], [entanglement], [dark modes]
2022#5
/174/ Deng-Gao Lai, Wei Qin, Adam Miranowicz, Franco Nori:
Efficient optomechanical refrigeration of two vibrations via an auxiliary feedback loop:
Giant enhancement in mechanical susceptibilities and net cooling rates

Phys. Rev. Research 4, 033102 (2022)  [PDF] 
DOI: 10.1103/PhysRevResearch.4.033102
(published on August 5, 2022)
Keywords: [cavity optomechanics], [cooling], [entanglement]
2022#4
/173/ Deng-Gao Lai, Jie-Qiao Liao, Adam Miranowicz, and Franco Nori:
Noise-Tolerant Optomechanical Entanglement via Synthetic Magnetism,
Phys. Rev. Lett. 129, 063602 (2022),  e-print arXiv:2201.10814 . [PDF]  [supplement] 
DOI: 10.1103/PhysRevLett.129.063602
(published on 3 August 2022)
Keywords: [cavity optomechanics], [entanglement], [synthetic magnetism], [noise robustness]
2022#3
/172/ H.-Y. Ku, J. Kadlec, A. Černoch, W. Zhou, K. Lemr, N. Lambert, A. Miranowicz, S.-L. Chen, F. Nori, Y.-N. Chen:
Detecting quantum non-breaking channels without entanglement,
PRX Quantum 3, 020338 (2022),  e-print arXiv:2106.15784 . [PDF] 
DOI: 10.1103/PRXQuantum.3.020338
(published on 19 May 2022)
Keywords: [nonlocality], [steering], [entanglement], [experiment], [linear optics]
2022#2
/171/ Ch.-Y. Ju, A. Miranowicz, F. Minganti, C.-Ts. Chan, G.-Y. Chen, F. Nori:
Flattening the Curve with Einstein's Quantum Elevator:
Hermitization of Non-Hermitian Hamiltonians via the Vielbein Formalism
,
Phys. Rev. Research 4, 023070 (2022),  e-print arXiv:2107.11910 . [PDF] 
DOI: 10.1103/PhysRevResearch.4.023070
(published on 25 April 2022)
Keywords: [non-Hermitian quantum mechanics], [PT-symmetry], [vielbein formalism]
2022#1
/170/ Y.-H. Kang, Y.-H. Chen, X. Wang, J. Song, Y. Xia, A. Miranowicz, S.-B. Zheng, F. Nori:
Nonadiabatic geometric quantum computation with cat qubits via invariant-based reverse engineering,
Phys. Rev. Research 4, 013233 (2022),  e-print arXiv:2110.01933 . [PDF] 
DOI: 10.1103/PhysRevResearch.4.013233
(published on 28 March 2022)
Keywords: [fault-tolerant quantum gates], [Schrödinger cat states], [quantum dissipative engineering]

2021

2021#9
/169/ F. Minganti, I. I. Arkhipov, A. Miranowicz, F. Nori:
Continuous Dissipative Phase Transitions with or without Symmetry Breaking,
New J. Phys. 23, 122001 (2021),  e-print arXiv:2110.11902 . [PDF] 
DOI: 10.1088/1367-2630/ac3db8
(published on 22 Dec 2021)
Keywords: [Liouvillian spectral collapse], [phase transitions], [dynamical hysteresis], [diabolic points]
2021#8
/168/ F. Minganti, I. I. Arkhipov, A. Miranowicz, F. Nori:
Liouvillian spectral collapse in the Scully-Lamb laser model
Phys. Rev. Research 3, 043197 (2021),  e-print arXiv:2103.05625 . [PDF] 
DOI: 10.1103/PhysRevResearch.3.043197
(published on 21 Dec 2021)
Keywords: [Scully-Lamb laser], [phase transitions], [dynamical hysteresis], [diabolic points]
2021#7
/167/ K. Jiráková, A. Černoch, K. Lemr, K. Bartkiewicz, A. Miranowicz:
Experimental hierarchy and optimal robustness of quantum correlations of two-qubit states with controllable white noise,
Phys. Rev. A 104, 062436 (2021),  e-print arXiv:2103.03691 . [PDF] 
DOI: 10.1103/PhysRevA.104.062436
(published on 21 Dec 2021)
Keywords: [nonlocality], [steering], [entanglement], [noise robustness], [experiment], [linear optics]
2021#6
/166/ H. Xu, D.-G. Lai, Y.-B. Qian, B.-P. Hou, A. Miranowicz, F. Nori:
Optomechanical dynamics in the PT- and broken-PT-symmetric regimes,
Phys. Rev. A 104, 053518 (2021),  e-print arXiv:2107.13891 . [PDF] 
DOI: 10.1103/PhysRevA.104.053518
(published on 17 Nov 2021)
Keywords: [optomechanics], [PT-symmetry]
2021#5
/165/ Y. Li, Y.-F. Jiao, J.-X. Liu, A. Miranowicz, Y.-L. Zuo, L.-M. Kuang, and H. Jing:
Coherent vectorial switch of optomechanical entanglement,
Nanophotonics 11, 67-77 (2021) ; e-print arXiv:2107.08384 . [PDF] 
DOI: 10.1515/nanoph-2021-0485
(published on 1 Nov 2021)
Keywords: [optomechanics], [entanglement]
2021#4
/164/ D.-G. Lai, W. Qin, B.-P. Hou, A. Miranowicz, F. Nori:
Significant enhancement in refrigeration and entanglement in auxiliary-cavity-assisted optomechanical systems,
Phys. Rev. A 104, 043521 (2021),  e-print arXiv:2110.02663 . [PDF] 
DOI: 10.1103/PhysRevA.104.043521
(Published 22 October 2021)
Keywords: [cavity optomechanics], [cooling], [entanglement]
2021#3
/163/ W. Qin, A. Miranowicz, H. Jing, and F. Nori:
Generating long-lived macroscopically distinct superposition states in atomic ensembles,
Phys. Rev. Lett. 127, 093602 (2021)  e-print arXiv:2101.03662 . [PDF] 
DOI: 10.1103/PhysRevLett.127.093602
(Published on 23 August 2021)
Keywords: [Schrödinger cat states], [quantum dissipative engineering]
2021#2
/162/ I. I. Arkhipov, F. Minganti, A. Miranowicz, F. Nori:
Generating high-order quantum exceptional points,
Phys. Rev. A 104, 012205 (2021),  e-print arXiv:2102.13646 . [PDF] 
DOI: 10.1103/PhysRevA.104.012205
(Published on 8 July 2021)
Keywords: [quantum dissipative engineering], [exceptional points], [non-Hermitian Hamiltonians], [Liouvillians]
2021#1
/161/ Y.-H. Chen, W. Qin, X. Wang, A. Miranowicz, F. Nori:
Shortcuts to Adiabaticity for the Quantum Rabi Model:
Efficient Generation of Giant Entangled Cat States via Parametric Amplification,

Phys. Rev. Lett. 126, 023602 (2021),  e-print arXiv:2008.04078 . [PDF] 
DOI: 10.1103/PhysRevLett.126.023602
(Published on 13 January 2021)
Keywords: [quantum simulations], [Rabi model], [ultrastrong coupling (USC) of light and matter], [shortcuts-to-adiabatic dynamics]

2020

2020#9
/160/ L. Garziano, A. Ridolfo, A. Miranowicz, G. Falci, S. Savasta, F. Nori:
Atoms in distant resonators can jointly absorb a single photon,
Sc. Reports 10, 21660 (2020),  e-print arXiv:1910.00224 . [PDF] 
DOI: 10.1038/s41598-020-78299-x
Published on 10 December 2020
Keywords: [Rabi model], [ultrastrong coupling (USC) of light and matter]
2020#8
/159/ W. Qin, Y.-H. Chen, X. Wang, A. Miranowicz, F. Nori:
Strong Spin Squeezing Induced by Weak Squeezing of Light inside a Cavity,
Nanophotonics 9, 4853-4868 (2020)  (IF=7.491), e-print arXiv:1912.04039 . [PDF]  [citations]
DOI: 10.1515/nanoph-2020-0513
Published online on 8 October 2020
Keywords: [spin squeezing], [squeezing of light], [enhanced interactions]
2020#7
/158/ Y.-F. Jiao, Y. -L. Zhang, A. Miranowicz, L. -M. Kuang, H. Jing:
Nonreciprocal Quantum Entanglement Against Backscattering,
Phys. Rev. Lett. 125, 143605 (2020),  e-print arXiv:2002.11148 . [PDF]  [supplement]  [citations]
DOI: 10.1103/PhysRevLett.125.143605
Published on 2 October 2020
Keywords: [quantum dissipative engineering], [nonreciprocal effects], [quantum entanglement], [quantum nonclassicality]
2020#6
/157/ C. Sánchez Muñoz, A. F. Kockum, A. Miranowicz, F. Nori:
Ultrastrong-coupling effects induced by a single classical drive in Jaynes-Cummings-type systems,
Phys. Rev. A 102, 033716 (2020),  e-print arXiv:1910.12875 . [PDF]  [citations]
DOI: 10.1103/PhysRevA.102.033716
Published on 11 September 2020
Keywords: [quantum simulations], [Rabi model], [ultrastrong coupling (USC) of light and matter]
2020#5
/156/ I. I. Arkhipov, A. Miranowicz, F. Minganti, F. Nori:
Liouvillian exceptional points of any order in dissipative linear bosonic systems:
Coherence functions and switching between PT and anti-PT symmetries,

Phys. Rev. A 102, 033715 (2020),  e-print arXiv:2006.03557 . [PDF] 
DOI: 10.1103/PhysRevA.102.033715
Published on 11 September 2020
Keywords: [quantum dissipative engineering], [quantum jumps], [quantum trajectories], [exceptional points], [non-Hermitian Hamiltonians], [Liouvillians], [driven linear systems]
2020#4
/155/ F. Minganti, A. Miranowicz, R. W. Chhajlany, I. I. Arkhipov, F. Nori:
Hybrid-Liouvillian formalism connecting exceptional points of non-Hermitian Hamiltonians and Liouvillians via postselection of quantum trajectories,
Phys. Rev. A 101, 062112 (2020),  e-print arXiv:2002.11620 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.101.062112
Published on 24 June 2020
Keywords: [quantum dissipative engineering], [quantum jumps], [quantum trajectories], [exceptional points], [non-Hermitian Hamiltonians], [Liouvillians], [driven dissipative qubit]
2020#3
/154/ P.-C. Kuo, N. Lambert, A. Miranowicz, G.-Y. Chen, Y.-N. Chen, and F. Nori:
Collectively induced exceptional points of quantum emitters coupled to nanoparticle surface plasmons,
Phys. Rev. A 101, 013814 (2020),  e-print arXiv:1904.08133 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.101.013814
Published on 14 January 2020
Keywords: [PT-symmetry], [exceptional points], [surface plasmons]
2020#2
/153/ I. I. Arkhipov, A. Miranowicz, F. Minganti, F. Nori:
Quantum and semiclassical exceptional points of a linear system of coupled cavities with losses and gain within the Scully-Lamb laser theory,
Phys. Rev. A 101, 013812 (2020),  e-print arXiv:1909.12276 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.101.013812
Published on 14 January 2020
Keywords: [laser theory], [exceptional points], [non-Hermitian Hamiltonians], [Liouvillians], [quantum jumps], [driven dissipative qubit]
2020#1
/152/ W. Zhao, S.-D. Zhang, A. Miranowicz, H. Jing:
Weak-force sensing with squeezed optomechanics,
Science in China: Mathematics, Physics, Astronomy 63, 224211 (2020),  e-print arXiv:1905.12493 . [PDF]  [BIB]  [citations]
DOI: 10.1007/s11433-019-9451-3
First Online on 29 August 2019, Printed on February 2020, Impact Factor = 3.986.
Keywords: [quantum metrology], [squeezing of light], [cavity optomechanics]

2019

2019#14
/151/ F. Minganti, A. Miranowicz, R. Chhajlany, F. Nori:
Quantum exceptional points of non-Hermitian Hamiltonians and Liouvillians: The effects of quantum jumps,
Phys. Rev. A 100, 062131 (2019),  e-print arXiv:1909.11619 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.062131
Keywords: [exceptional points], [non-Hermitian Hamiltonians], [Liouvillians], [quantum jumps], [frequency converter], [driven dissipative qubit]
2019#13
/150/ X. Wang, A. Miranowicz, F. Nori:
Ideal Quantum Nondemolition Readout of a Flux Qubit Without Purcell Limitations,
Phys. Rev. Applied 12, 064037 (2019),  e-print arXiv:1811.09048 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevApplied.12.064037
Keywords: [quantum nondemolition measurement], [superconducting quantum circuits (SQC)]
2019#12
/149/ C.-Y. Ju, A. Miranowicz, G.-Y. Chen, F. Nori:
Non-Hermitian Hamiltonians and no-go theorems in quantum information,
Phys. Rev. A 100, 062118 (2019)  e-print arXiv:1906.08071 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.062118
Keywords: [non-Hermitian quantum mechanics], [PT-symmetry], [no-go theorems], [no-cloning], [no-deleting], [no-signaling], [entanglement measures]
2019#11
/148/ X. Wang, W. Qin, A. Miranowicz, S. Savasta, F. Nori:
Unconventional Cavity Optomechanics: Nonlinear Control of Phonons in the Acoustic Quantum Vacuum,
Phys. Rev. A 100, 063827 (2019)  e-print arXiv:1902.09910 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.063827
Keywords: [unconventional optomechanics], [radiation pressure], [dynamical Casimir effect], [photon-phonon transducer], [mechanical parametric amplification], [Kerr effect]
2019#10
/147/ W. Qin, V. Macri, A. Miranowicz, S. Savasta, F. Nori:
Emission of photon pairs by mechanical stimulation of the squeezed vacuum,
Phys. Rev. A 100, 062501 (2019),  e-print arXiv:1902.04216 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.062501
Keywords: [dynamical Casimir effect], [cavity optomechanics], [squeezing of light]
2019#9
/146/ A. Kowalewska-Kudlaszyk, S. I. Abo, G. Chimczak, J. Perina Jr., F. Nori, A. Miranowicz:
Two-photon blockade and photon-induced tunneling generated by squeezing,
Phys. Rev. A 100, 053857 (2019),  e-print arXiv:1908.08414 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.053857
Keywords: [photon blockade], [photon-induced tunneling (PIT)], [squeezing of light], [squeezed-mode reservoir], [photon antibunching], [quantum dissipative engineering]
2019#8
/145/ J. Perina Jr., A. Luks, J. K. Kalaga, W. Leonski, A. Miranowicz:
Nonclassical light at exceptional points of a quantum PT-symmetric two-mode system,
Phys. Rev. A 100, 053820 (2019),  e-print arXiv:1910.10690 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.053820
Keywords: [PT-symmetry], [exceptional points], [non-Hermitian Hamiltonians], [frequency converter], [parametric amplifier]
2019#7
/144/ T. Li, A. Miranowicz, K. Xia, and F. Nori:
Resource-efficient analyzer of Bell and Greenberger-Horne-Zeilinger states of multiphoton systems,
Phys. Rev. A 100, 052302 (2019),  e-print arXiv:1811.02711 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.100.052302
Keywords: [linear optics], [quantum gates], [Bell analyzer], [GHZ state analyzer]
2019#6
/143/ N. Yang, A. Miranowicz, Y.-C. Liu, K. Xia, and F. Nori:
Chaotic synchronization of two optical cavity modes in optomechanical systems,
Scientific Reports 9, 15874 (2019),  e-print arXiv:1802.03282 . [PDF]  [BIB]  [citations]
DOI: 10.1038/s41598-019-51559-1
Keywords: [chaos], [cavity optomechanics]
2019#5
/142/ W. Qin, A. Miranowicz, G.L. Long, J.-Q. You, and F. Nori:
Proposal to Test Quantum Wave-Particle Superposition on Massive Mechanical Resonators,
npj Quantum Information 5, 58 (2019)  [2-year IF=8.270, 5-year IF=9.181]; e-print arXiv:1807.03194 . [PDF]  [BIB]  [citations]
DOI: 10.1038/s41534-019-0172-9
Keywords: [quantum paradoxes], [experiment proposal], [nanomechanical resonators (NAMR)]
2019#4
/141/ B. Li, R. Huang, X.-W. Xu, A. Miranowicz, H. Jing:
Nonreciprocal unconventional photon blockade in a spinning optomechanical system,
Photonics Research 7(6), 630-641 (2019)  [IF=5.242 (2017)]; e-print arXiv:1901.10784 . [PDF]  [BIB]  [citations]
DOI: 10.1364/PRJ.7.000630
Keywords: [photon blockade], [unconventional photon blockade], [nonreciprocal effects], [photon antibunching], [quantum dissipative engineering]
2019#3
/140/ I. I. Arkhipov, A. Miranowicz, O. Di Stefano, R. Stassi, S. Savasta, F. Nori, Ş. K. Özdemir:
Scully-Lamb quantum laser model for parity-time-symmetric whispering-gallery microcavities: Gain saturation effects and non-reciprocity ,
Phys. Rev. A 99, 053806 (2019),  e-print arXiv:1901.11421 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.99.053806
Keywords: [PT-symmetry], [exceptional points], [laser model], [nonreciprocal effects], [whispering-gallery resonators]
2019#2
/139/ I. I. Arkhipov, T. H. Yoon, A. Miranowicz:
Enhancing entanglement detection of quantum optical frequency combs via stimulated emission,
Scientific Reports 9, 5090 (2019);  e-print arXiv:1902.04657 . [PDF]  [BIB] 
DOI: 10.1038/s41598-019-41545-y
Keywords: [optical frequency combs], [parametric down conversion], [Gaussian states], [entanglement criteria], [nonclassicality criteria]
2019#1
/138/ A. F. Kockum, A. Miranowicz, S. De Liberato, S. Savasta, and F. Nori:
Ultrastrong coupling between light and matter,
Nature Reviews Physics 1, pp. 19–40 (2019),  e-print arXiv:1807.11636 . [PDF]  [BIB]  [citations]
DOI: 10.1038/s42254-018-0006-2
Keywords: [review], [Rabi model], [ultrastrong coupling (USC) of light and matter]

2018

2018#5
/137/ R. Huang, A. Miranowicz, J.-Q. Liao, F. Nori, and H. Jing:
Nonreciprocal Photon Blockade,
Phys. Rev. Lett. 121, 153601 (2018),  e-print arXiv:1807.10084 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevLett.121.153601
Keywords: [photon blockade], [nonreciprocal effects], [photon-induced tunneling (PIT)], [photon antibunching], [quantum dissipative engineering]
2018#4
/136/ X. Wang, A. Miranowicz, H.-R. Li, F.-L. Li, F. Nori:
Two-color electromagnetically induced transparency via modulated coupling between a mechanical resonator and a qubit,
Phys. Rev. A 98, 023821 (2018),  e-print arXiv:1803.06513 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.98.023821
Keywords: [electromagnetically induced transparency (EIT)], [mechanical resonators], [hybrid quantum devices], [superconducting quantum circuits (SQC)]
2018#3
/135/ T. Li, A. Miranowicz, X. Hu, K. Xia, and F. Nori:
Quantum memory and gates using a Lambda-type quantum emitter coupled to a chiral waveguide,
Phys. Rev. A 97, 062318 (2018),  e-print arXiv:1803.05626 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.97.062318
Keywords: [quantum memory], [quantum gates], [chiral waveguide], [three-level atom]
2018#2
/134/ W. Qin, A. Miranowicz, P.-B. Li, X.-Y. Lu, J.-Q. You, and F. Nori:
Exponentially Enhanced Light-Matter Interaction, Cooperativities, and Steady-State Entanglement Using Parametric Amplification,
Phys. Rev. Lett. 120, 093601 (2018),  e-print arXiv:1709.09555 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevLett.120.093601
Keywords: [Rabi model], [ultrastrong coupling (USC) of light and matter], [squeezing of light]
2018#1
/133/ H.-Y. Ku, Sh.-L. Chen, C. Budroni, A. Miranowicz, Y.-N. Chen, and F. Nori:
Einstein-Podolsky-Rosen steering: Its geometric quantification and witness,
Phys. Rev. A 97, 022338 (2018),  e-print arXiv:1709.06703 . [PDF]  [BIB]  [citations]
DOI: 10.1103/PhysRevA.97.022338
Keywords: [quantum steering]
This work has been featured in the cover of PRA  and in Kaleidoscope .

2017

2017#9
/132/ X. Wang, A. Miranowicz, H.-R. Li, and F. Nori:
Observing pure effects of counter-rotating terms without ultrastrong coupling: A single photon can simultaneously excite two qubits,
Phys. Rev. A 96, 063820 (2017),  e-print arXiv:1709.05199 . [PDF]  [BIB]  [citations]
Keywords: [Rabi model], [ultrastrong coupling (USC) of light and matter]
2017#8
/131/ X. Gu, A. F. Kockum, A. Miranowicz, Y.-X. Liu, and F. Nori:
Microwave photonics with superconducting quantum circuits,
Physics Reports 718–719 (2017) 1–102 , e-print arXiv:1707.02046 . [PDF]  [BIB]  [citations]
Comments: Review article, 102 pages, 1362 references.
Keywords: [review], [superconducting quantum circuits (SQC)]
2017#7
/130/ R. Stassi, V. Macri, A. F. Kockum, O. Di Stefano, A. Miranowicz, S. Savasta, and F. Nori:
Quantum Nonlinear Optics without Photons,
Phys. Rev. A 96, 023818 (2017),  e-print arXiv:1702.00660 . [PDF]  [BIB]  [citations]
Keywords: [Rabi model], [ultrastrong coupling (USC) of light and matter], [nonlinear optics]
2017#6
/129/ W. Qin, X. Wang, A. Miranowicz, Z. Zhong, F. Nori:
Heralded quantum controlled phase gates with dissipative dynamics in macroscopically distant resonators,
Phys. Rev. A 96, 012315 (2017),  e-print arXiv:1608.04195 . [PDF]  [BIB]  [citations]
Keywords: [quantum gates], []
2017#5
/128/ A. F. Kockum, A. Miranowicz, V. Macri, S. Savasta, F. Nori:
Deterministic quantum nonlinear optics with single atoms and virtual photons,
Phys. Rev. A 95, 063849 (2017),  e-print arXiv:1701.05038 . [PDF]  [BIB]  [citations]
Keywords: [Rabi model], [ultrastrong coupling (USC) of light and matter], [nonlinear optics]
2017#4
/127/ S.-L. Chen, N. Lambert, C.-M. Li, G. Yin Chen, Y.-N. Chen, A. Miranowicz, F. Nori:
Spatio-Temporal Steering for Testing Nonclassical Correlations in Quantum Networks,
Scientific Reports 7, 3728 (2017),  e-print arXiv:1608.03150 . [PDF]  [BIB]  [citations]
Keywords: [quantum steering], [temporal steering], [nonclassicality tests]
2017#3
/126/ X. Wang, A. Miranowicz, H.-R. Li, F. Nori:
Hybrid quantum device with a carbon nanotube and a flux qubit for dissipative quantum engineering,
Phys. Rev. B 95, 205415 (2017),  e-print arXiv:1612.00942 . [PDF]  [BIB]  [citations]
Keywords: [hybrid quantum devices], [carbon nanotube], [superconducting quantum circuits], [hybrid quantum devices]
2017#2
/125/ K. Bartkiewicz, K. Lemr, A. Černoch, A. Miranowicz:
Bell nonlocality and fully entangled fraction measured in an entanglement-swapping device without quantum state tomography,
Phys. Rev. A 95, 030102(R) (2017),  e-print arXiv:1609.09653 . [article]  [supplement]  [BIB]  [citations]
Keywords: [nonlocality measures], [entanglement measures], [experiment], [linear optics]
2017#1
/124/ K. Bartkiewicz, A. Cernoch, G. Chimczak, K. Lemr, A. Miranowicz, F. Nori:
Experimental quantum forgery of quantum optical money,
npj Quantum Information 7 (3) 1 (2017),  e-print arXiv:1604.04453 . [article]  [supplement]  [BIB]  [citations]
Keywords: [quantum money], [quantum cryptography], [experiment], [linear optics]
This work was featured in .

2016

2016#9
/123/ K. Bartkiewicz, A. Cernoch, K. Lemr, A. Miranowicz, F. Nori:
Experimental temporal quantum steering,
Scientific Reports 6, 38076 (2016),  e-print arXiv:1602.09133 . [PDF]  [BIB]  [citations]
Keywords: [experiment], [temporal steering], [linear optics]
2016#8
/122/ X. Wang, A. Miranowicz, H.-R. Li, F. Nori:
Multiple-output microwave single-photon source using superconducting circuits with longitudinal and transverse couplings,
Phys. Rev. A 94, 053858 (2016),  e-print arXiv:1607.08730 . [PDF]  [BIB]  [citations]
Keywords: [superconducting quantum circuits], [photon blockade], [quantum dissipative engineering]
2016#7
/121/ I.I. Arkhipov, J. Perina Jr., J. Perina, A. Miranowicz:
Interplay of nonclassicality and entanglement of two-mode Gaussian fields generated in optical parametric processes,
Phys. Rev. A 94, 13807 (2016),  e-print arXiv:1605.07375 . [PDF]  [BIB]  [citations]
Keywords: [nonclassicality measures], [entanglement measures], [squeezing of light], [Gaussian fields]
2016#6
/120/ X. Wang, A. Miranowicz, H.-R. Li, F. Nori:
Method for observing robust and tunable phonon blockade in a nanomechanical resonator coupled to a charge qubit,
Phys. Rev. A 93, 063861 (2016),  e-print arXiv:1603.07546 . [PDF]  [BIB]  [citations]
Keywords: [nanomechanical resonators (NAMR)], [phonon blockade], [hybrid quantum devices], [quantum dissipative engineering]
2016#5
/119/ K. Bartkiewicz, A. Cernoch, K. Lemr, A. Miranowicz, F. Nori:
Temporal steering and security of quantum key distribution with mutually unbiased bases against individual attacks,
Phys. Rev. A 93, 62345 (2016).  e-print arXiv:1503.00612 . [PDF]  [BIB]  [citations]
Keywords: [temporal steering], [quantum cryptography]
2016#4
/118/ I.I. Arkhipov, J. Perina Jr., J. Svozilík, A. Miranowicz:
Nonclassicality Invariant of Bipartite Gaussian States,
Scientific Reports 6, 26523 (2016),  e-print arXiv:1601.04868 . [PDF]  [BIB]  [citations]
Keywords: [Gaussian fields], [nonclassicality tests]
2016#3
/117/ K. Bartkiewicz, A. Černoch, K. Lemr, A. Miranowicz:
Priority Choice Experimental Two-qubit Tomography: Measuring One by One All Elements of Density Matrices,
Scientific Reports 6, 19610 (2016),  e-print arXiv:1506.01317 . [article]  [supplement]  [BIB]  [citations]
Keywords: [quantum tomography], [linear optics], [experiment]
2016#2
/116/ S.-L. Chen, N. Lambert, C.-M. Li, A. Miranowicz, Y.-N. Chen, F. Nori:
Quantifying Non-Markovianity with Temporal Steering,
Phys. Rev. Lett. 116, 020503 (2016),  e-print arXiv:1503.00836 . [article]  [supplement]  [BIB]  [citations]
Keywords: [temporal Steering], [non-Markovianity measure]
2016#1
/115/ A. Miranowicz, J. Bajer, N. Lambert, Y.-X. Liu, F. Nori:
Tunable multiphonon blockade in coupled nanomechanical resonators,
Phys. Rev. A 93, 013808 (2016),  e-print arXiv:1506.08622 . [PDF]  [BIB]  [citations]
Keywords: [phonon blockade], [nanomechanical resonators (NAMR)], [quantum dissipative engineering]

2015

2015#7
/114/ A. Miranowicz, K. Bartkiewicz, N. Lambert, Y.-N. Chen, F. Nori:
Increasing relative nonclassicality quantified by standard entanglement potentials by dissipation and unbalanced beam splitting,
Phys. Rev. A 92, 062314 (2015),  e-print arXiv:1507.08587 . [PDF]  [BIB]  [citations]
Keywords: [nonclassicality measures], [entanglement measures]
2015#6
/113/ H. Wang, X. Gu, Y.-X. Liu, A. Miranowicz, F. Nori:
Tunable photon blockade in a hybrid system consisting of an optomechanical device coupled to a two-level system,
Phys. Rev. A 92, 033806 (2015),  e-print arXiv:1506.03858 . [PDF]  [BIB]  [citations]
Keywords: [photon blockade], [hybrid quantum systems], [cavity optomechanics], [quantum dissipative engineering]
2015#5
/112/ A. Miranowicz, S.K. Özdemir, J. Bajer, G. Yusa, N. Imoto, Y. Hirayama, F. Nori:
Quantum state tomography of large nuclear spins in a semiconductor quantum well:
Optimal robustness against errors as quantified by condition numbers,

Phys. Rev. B 92, 075312 (2015),  e-print arXiv:1410.2440 . [PDF]  [BIB]  [citations]
Keywords: [quantum tomography], [NMR], [quantum well], [experiment proposals]
2015#4
/111/ A. Miranowicz, K. Bartkiewicz, A. Pathak, J. Perina Jr., Y.-N. Chen, and F. Nori:
Statistical mixtures of states can be more quantum than their superpositions:
Comparison of nonclassicality measures for single-qubit states,

Phys. Rev. A 91, 042309 (2015),  e-print arXiv:1502.04523 . [PDF]  [BIB]  [citations]
Keywords: [nonclassicality measures], [entanglement measures]
2015#3
/110/ I. I. Arkhipov, J. Perina Jr., J. Perina, and A. Miranowicz:
Comparative study of nonclassicality, entanglement, and dimensionality of multimode noisy twin beams,
Phys. Rev. A 91, 033837 (2015),  e-print arXiv:1501.05256 . [PDF]  [BIB]  [citations]
Keywords: [nonclassicality measures], [entanglement measures], [Gaussian fields]
2015#2
/109/ K. Bartkiewicz, P. Horodecki, K. Lemr, A. Miranowicz, and K. Zyczkowski:
Method for universal detection of two-photon polarization entanglement,
Phys. Rev. A 91, 032315 (2015),  e-print arXiv:1405.5560 . [PDF]  [BIB]  [citations]
Keywords: [entanglement test], [experiment proposal], [linear optics]
2015#1
/108/ K. Bartkiewicz, J. Beran, K. Lemr, M. Norek, and A. Miranowicz:
Quantifying entanglement of a two-qubit system via
measurable and invariant moments of its partially transposed density matrix,

Phys. Rev. A 91, 022323 (2015),  e-print arXiv:1411.7977 . [PDF]  [BIB]  [citations]
Keywords: [entanglement measures], [linear optics], [experiment proposal]

2014

2014#8
/106/ I. Arkhipov, J. Perina Jr., A. Miranowicz, and J. Perina:
Entanglement and nonclassicality of twin beams containing noise,
Proc. SPIE 9441, 94410Y (2014).  [PDF]  [BIB] 
Keywords: [nonclassicality measures], [entanglement measures], [Gaussian fields]
2014#7
/107/ A. Miranowicz, K. Bartkiewicz, J. Perina Jr., M. Koashi, N. Imoto, and F. Nori:
Optimal two-qubit tomography based on local and global measurements:
Maximal robustness against errors as described by condition numbers,

Phys. Rev. A 90, 062123 (2014),  e-print arXiv:1409.4622 . [PDF]  [BIB]  [citations]
Keywords: [quantum tomography], [linear optics], [experiment proposal]
2014#6
/105/ Y.-X. Liu, H.-C. Sun, Z.-H. Peng, A. Miranowicz, J.-S. Tsai, and F. Nori:
Controllable microwave three-wave mixing via a single three-level superconducting quantum circuit,
Scientific Reports 4, 7289 (2014),  e-print arXiv:1308.6409 . [PDF]  [BIB]  [citations]
Keywords: [wave mixing], [superconducting quantum circuits], [three-level atom]
2014#5
/104/ A. Miranowicz, J. Bajer, M. Paprzycka, Y.-X. Liu, A. M. Zagoskin, and F. Nori:
State-dependent photon blockade via quantum-reservoir engineering,
Phys. Rev. A 90, 033831 (2014),  e-print arXiv:1407.5779 . [PDF]  [BIB]  [citations]
Keywords: [photon blockade], [quantum reservoir engineering]
2014#4
/103/ H. Wang, X. Gu, Y.-X. Liu, A. Miranowicz, and F. Nori:
Optomechanical analog of two-color electromagnetically induced transparency:
Photon transmission through an optomechanical device with a two-level system,

Phys. Rev. A 90, 023817 (2014),  e-print arXiv:1402.2764 . [PDF]  [BIB]  [citations]
Keywords: [electromagnetically induced transparency (EIT)], [cavity optomechanics], [hybrid quantum devices]
2014#3
/102/ M. Bartkowiak, L.-A. Wu, and A. Miranowicz:
Quantum circuits for amplification of Kerr nonlinearity via quadrature squeezing,
J. Phys. B 47, 145501 (2014),  e-print arXiv:1210.2384 . [PDF]  [BIB]  [citations]
Keywords: [Kerr effect], [squeezing of light]
2014#2
/101/ Y.-X. Liu, X.-W. Xu, A. Miranowicz, and F. Nori:
From blockade to transparency: controllable photon transmission through a circuit QED system,
Phys. Rev. A 89, 043818 (2014),  e-print arXiv:1203.6419v3 . [PDF]  [BIB]  [citations]
Keywords: [photon blockade], [photon-induced tunneling (PIT)], [superconducting quantum circuits], [quantum dissipative engineering]
2014#1
/100/ A. Miranowicz, M. Paprzycka, A. Pathak, and F. Nori:
Phase-space interference of states optically truncated by quantum scissors:
Generation of distinct superpositions of qudit coherent states by displacement of vacuum,

Phys. Rev. A 89, 033812 (2014),  e-print arXiv:1307.6950 . [PDF]  [BIB]  [citations]
Keywords: [Schrödinger cats], [QPD], [Kerr effect]

2013

2013#6
/99/ K. Bartkiewicz, K. Lemr, and A. Miranowicz:
Direct method for measuring of purity, superfidelity, and subfidelity of photonic two-qubit mixed states,
Phys. Rev. A 88, 052104 (2013),  e-print arXiv:1308.5815 . [PDF]  [BIB]  [citations]
Keywords: [fidelity], [purity], [experiment proposal], [linear optics]
2013#5
/98/ K. Bartkiewicz, B. Horst, K. Lemr, and A. Miranowicz:
Entanglement estimation from Bell inequality violation,
Phys. Rev. A 88, 052105 (2013),  e-print arXiv:1306.6504 . [PDF]  [BIB]  [citations]
Keywords: [Bell nonlocality], [entanglement test]
2013#4
/97/ X.-B. Wang, Z.-W. Yu, J.-Z. Hu, A. Miranowicz, and F. Nori:
Efficient tomography of quantum optical Gaussian processes probed with a few coherent states,
Phys. Rev. A 88, 022101 (2013),  e-print arXiv:1304.6307 . [PDF]  [BIB]  [citations]
Keywords: [quantum tomography], [Gaussian fields]
2013#3
/96/ K. Bartkiewicz, K. Lemr, A. Cernoch, J. Soubusta, and A. Miranowicz:
Experimental eavesdropping based on optimal quantum cloning,
Phys. Rev. Lett. 110, 173601 (2013),  e-print arXiv:1206.0144 . [PDF]  [BIB]  [citations]
Keywords: [quantum cryptography], [cloning], [experiment], [linear optics]
This work was featured in .
2013#2
/95/ B. Horst, K. Bartkiewicz, and A. Miranowicz:
Two-qubit mixed states more entangled than pure states: Comparison of the relative entropy of entanglement for a given nonlocality,
Phys. Rev. A 87, 042108 (2013);  e-print arXiv:1301.2969 . [PDF]  [BIB]  [citations]
Keywords: [entanglement measures], [Bell nonlocality measures], [relative entropy of entanglement (REE)]
2013#1
/94/ A. Miranowicz, M. Paprzycka, Y.-X. Liu, J. Bajer, and F. Nori:
Two-photon and three-photon blockades in driven nonlinear systems,
Phys. Rev. A 87, 023809 (2013),  e-print arXiv:1212.4365 . [PDF]  [BIB]  [citations]
Keywords: [photon blockade], [Kerr effect], [quantum dissipative engineering]

2012

2012#3
/93/ A. Miranowicz, P. Horodecki, R.W. Chhajlany, J. Tuziemski, and J. Sperling:
Analytical progress on symmetric geometric discord: Measurement-based upper bounds,
Phys. Rev. A 86, 042123 (2012),  e-print arXiv:1209.2698 . [PDF]  [BIB]  [citations]
Keywords: [quantum discord]
2012#2
/92/ K. Lemr, K. Bartkiewicz, A. Cernoch, J. Soubusta, and A. Miranowicz:
Experimental linear-optical implementation of a multifunctional optimal cloner,
Phys. Rev. A 85, 050307(R) (2012),  e-print arXiv:1201.6234 . [article]  [supplement]  [BIB]  [citations]
Keywords: [experiment], [cloning], [linear optics]
2012#1
/91/ K. Bartkiewicz and A. Miranowicz:
Cloning of arbitrary mirror-symmetric distributions on Bloch sphere: Proposal for practical photonic realization,
Phys. Scr. T 147, 014003 (2012),  e-print arXiv:1103.5324 . [PDF]  [BIB] 
Keywords: [experiment proposal], [cloning], [linear optics]

2011

2011#2
/90/ M. Bartkowiak, A. Miranowicz, X. Wang, Y.X. Liu, W. Leonski, and F. Nori:
Sudden vanishing and reappearance of nonclassical effects: General occurrence of finite-time decays and periodic vanishings of nonclassicality and entanglement witnesses,
Phys. Rev. A 83, 053814 (2011),  e-print arXiv:1101.4956 . [PDF]  [BIB]  [citations]
Keywords: [entanglement sudden vanishing], [nonclassicality tests], [entanglement measures]
2011#1
/89/ A. Miranowicz, B. Horst, and A. Koper:
Paradoxes of measures of quantum entanglement and Bell's inequality violation in two-qubit systems,
J. Comp. Meth. Sci. Eng. 10, 501-512 (2011),  e-print arXiv:1002.4637 . [PDF]  [BIB]  [citations]
Keywords: [entanglement measures], [Bell nonlocality measures]

2010

  1. /88/ K. Bartkiewicz and A. Miranowicz:
    Optimal cloning of qubits given by arbitrary axisymmetric distribution on Bloch sphere,
    Phys. Rev. A  82, 042330 (2010),  e-print arXiv:1007.0780 . [PDF]  [BIB]  [citations]
    Keywords: [cloning]
  2. /87/ M. Bartkowiak and A. Miranowicz:
    Linear-optical implementations of the iSWAP and controlled NOT gates based on conventional detectors,
    J. Opt. Soc. Am. B 27, 2369-2377 (2010). ; e-print arXiv:1004.2379  [PDF]  [BIB]  [citations]
    Keywords: [linear optics], [quantum gates], [experiment proposal]
  3. /86/ Y.-X. Liu, A. Miranowicz, Y. B. Gao, J. Bajer, C.-P. Sun, and F. Nori:
    Qubit-induced phonon blockade as a signature of quantum behavior in nanomechanical resonators,
    Phys. Rev. A 82, 032101 (2010),  e-print arXiv:0910.3066 . [PDF]  [BIB]  [citations]
    Keywords: [phonon blockade], [Kerr effect], [nanomechanical resonators (NAMR)], [quantum dissipative engineering]
  4. /85/ W. Leonski, A. Kowalewska-Kudlaszyk, and A. Miranowicz:
    Computer simulations of entanglement dynamics for nonlinear system,
    Comp. Meth. Sc. Tech.  16(2), 169-172 (2010) . [PDF] 
    Keywords: [entanglement measures], [Kerr effect]
  5. /84/ A. Miranowicz, M. Bartkowiak, X. Wang, Y.-X. Liu, and F. Nori:
    Testing nonclassicality in multimode fields: a unified derivation of classical inequalities,
    Phys. Rev. A 82, 013824 (2010),  e-print arXiv:1004.3182 . [PDF]  [BIB]  [citations]
    Keywords: [nonclassicality tests], [entanglement tests]
  6. /83/ X. Wang, A. Miranowicz, Y.-X. Liu, C.-P. Sun, and F. Nori:
    Sudden vanishing of spin squeezing under decoherence,
    Phys. Rev. A 81, 022106 (2010),  e-print arXiv:0909.4834 . [PDF]  [BIB]  [citations]
    Keywords: [spin squeezing], [entanglement sudden vanishing]

2009

  1. /82/ A. Miranowicz, M. Piani, P. Horodecki, and R. Horodecki:
    Inseparability criteria based on matrices of moments,
    Phys. Rev. A 80, 052303 (2009),  e-print quant-ph/0605001 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement tests]
  2. /81/ K. Bartkiewicz, A. Miranowicz, and Ş. K. Özdemir:
    Optimal mirror phase-covariant cloning,
    Phys. Rev. A 80, 032306 (2009),  e-print arXiv:0906.0182 . [PDF]  [BIB]  [citations]
    Keywords: [cloning]
  3. /80/ L. A. Wu, A. Miranowicz, X. B. Wang, Y.-X. Liu, and F. Nori:
    Perfect function transfer and interference effects in interacting boson lattices,
    Phys. Rev. A 80, 012332 (2009),  e-print arXiv:0902.3564 . [PDF]  [BIB]  [citations]
    Keywords: [state transfer]

2008

  1. /79/ A. Miranowicz, S. Ishizaka, B. Horst, and A. Grudka:
    Comparison of the relative entropy of entanglement and negativity,
    Phys. Rev. A 78, 052308 (2008),  e-print arXiv:quant-ph/0409009 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement measures], [relative entropy of entanglement (REE)]
  2. /78/ A. Miranowicz and S. Ishizaka:
    Closed formula for the relative entropy of entanglement,
    Phys. Rev. A 78, 032310 (2008),  e-print arXiv:0805.3134 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement measures], [relative entropy of entanglement (REE)]

2007

  1. /77/ S. K. Özdemir, K. Bartkiewicz, Y.-X. Liu, and A. Miranowicz:
    Teleportation of qubit states through dissipative channels: Conditions for surpassing the no-cloning limit,
    Phys. Rev. A 76, 042325 (2007),  e-print arXiv:0709.1662 . [PDF]  [BIB]  [citations]
    Keywords: [teleportation], [cloning]
  2. /76/ A. Miranowicz, S. K. Özdemir, J. Bajer, M. Koashi, and N. Imoto:
    Selective truncations of an optical state using projection synthesis,
    J. Opt. Soc. Am. B 24, 379-383 (2007),  e-print arXiv:quant-ph/0605146 . [PDF]  [BIB]  [citations]
    Keywords: [teleportation], [linear optics], [state engineering], [linear scissors], [Mach-Zehnder interferometer]
  3. /75/ A. Miranowicz, S. K. Özdemir, Y.-X. Liu, G. Chimczak, M. Koashi, and N. Imoto:
    Quantum entanglement and teleportation of quantum-dot states in microcavities,
    e-Journal of Surface Science and Nanotechnology 5, 51-59 (2007),  e-print arXiv:quant-ph/0702026 . [PDF]  [BIB]  [citations]
    Keywords: [quantum dots], [entanglement measures], [teleportation]

2006

  1. /74/ S. K. Özdemir, A. Miranowicz, T. Ota, G. Yusa, N. Imoto, and Y. Hirayama:
    Nuclear spins in a nanoscale device for quantum information processing,
    e-Journal of Surface Science and Nanotechnology 4, 669-673 (2006),  e-print arXiv:quant-ph/0612228 . [PDF]  [BIB] 
    Keywords: [quantum gates], [NMR], [quantum well], [experiment proposals]
  2. /73/ Adam Miranowicz and Marco Piani:
    Comment on "Inseparability Criteria for Continuous Bipartite Quantum States",
    Phys. Rev. Lett. 97, 058901 (2006),  e-print arXiv:quant-ph/0603239 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement tests]
  3. /72/ Y. Hirayama, A. Miranowicz, T. Ota, G. Yusa, K. Muraki, S. K. Özdemir, and N. Imoto:
    Nanometre-scale nuclear-spin device for quantum information processing,
    special issue on "Quantum Information Processing",
    J. Phys.: Condens. Matter 18, S885-S900 (2006),  e-print arXiv:quant-ph/0605199 . [PDF]  [BIB]  [citations]
    Keywords: [quantum gates], [NMR], [quantum well], [experiment]
  4. /71/ A. Miranowicz and W. Leoński:
    Two-mode optical state truncation and generation of maximally entangled states in pumped nonlinear couplers,
    J. Phys. B 39, 1683-1700 (2006),  e-print arXiv:quant-ph/0603149 . [PDF]  [BIB]  [citations]
    Keywords: [photon blockade], [nonlinear scissors], [Kerr effect]

2005

  1. /70/ G. Chimczak, R. Tanaś, and A. Miranowicz:
    Teleportation with insurance of an entangled atomic state via cavity decay,
    Phys. Rev. A 71, 032316 (2005), , e-print arXiv:quant-ph/0407007 . [PDF]  [BIB]  [citations]
    Keywords: [teleportation], [three-level atoms]
  2. /69/ A. Miranowicz:
    Optical-state truncation and teleportation of qudits by conditional eight-port interferometry,
    J. Opt. B 7, 142-150 (2005),  e-print arXiv:quant-ph/0512257 . [PDF]  [BIB]  [citations]
    Keywords: [teleportation], [linear optics], [state engineering], [linear scissors], [Mach-Zehnder interferometer]
  3. /68/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Selective truncations of coherent state using projection synthesis,
    Proc. of 12th IEICE Conf. on Quantum Information and Technology (QIT 12 ) (Atsugi, Japan, 2005) pp. 99-102. [PDF] 

2004

  1. /67/ A. Miranowicz and A. Grudka:
    A comparative study of relative entropy of entanglement, concurrence and negativity,
    J. Opt. B 6, 542-548 (2004),  e-print arXiv:quant-ph/0409153 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement measures], [relative entropy of entanglement (REE)]
  2. /66/ Y.-X. Liu, S. K. Özdemir, A. Miranowicz, and N. Imoto:
    Kraus representation of a damped harmonic oscillator and its application,
    Phys. Rev. A 70, 042308 (2004),  e-print arXiv:quant-ph/0407263 . [PDF]  [BIB]  [citations]
    Keywords: [Kraus representation]
  3. /65/ A. Miranowicz and A. Grudka:
    Ordering two-qubit states with concurrence and negativity,
    Phys. Rev. A 70, 032326 (2004),  e-print arXiv:quant-ph/0404053 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement measures]
  4. /64/ J. Bajer, A. Miranowicz and M. Andrzejewski:
    Quantum noise and mixedness of a pumped dissipative nonlinear oscillator,
    J. Opt. B 6, 387-395 (2004),  e-print arXiv:quant-ph/0407237 . [PDF]  [BIB]  [citations]
    Keywords: [Kerr effect], [purity]
  5. /63/ A. Miranowicz:
    Decoherence of two maximally entangled qubits in a lossy nonlinear cavity,
    J. Phys. A 37 7909-7922 (2004),  e-print arXiv:quant-ph/0402025 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement sudden vanishing], [Bell nonlocality measures], [entanglement measures]
  6. /62/ A. Miranowicz:
    Violation of Bell inequality and entanglement of decaying Werner states,
    Phys. Lett. A 327, 272-283 (2004),  e-print arXiv:quant-ph/0402023 . [PDF]  [BIB]  [citations]
    Keywords: [entanglement sudden vanishing], [Kerr effect], [entanglement measures]
  7. /61/ Y.-X. Liu, S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Exciton entanglement in two coupled semiconductor microcrystallites,
    J. Phys. A 37, 4423-4436 (2004),  e-print arXiv:quant-ph/0401182 . [PDF]  [BIB]  [citations]
    Keywords: [quantum dots], [microcrystallites], [entanglement measures]
  8. /60/ W. Leoński and A. Miranowicz:
    Kerr nonlinear coupler and entanglement,
    J. Optics B 6, S37-S42 (2004),  e-print arXiv:quant-ph/0408024 . [PDF]  [BIB]  [citations]
    Keywords: [photon blockade], [nonlinear scissors], [Kerr effect]
  9. /59/ A. Miranowicz and W. Leoński:
    Dissipation in systems of linear and nonlinear quantum scissors,
    J. Opt. B 6, S43-S46 (2004),  e-print arXiv:quant-ph/0402024 . [PDF]  [BIB]  [citations]
    Keywords: [linear quantum scissors], [nonlinear quantum scissors], [photon blockade], [Kerr effect]

2003

  1. /58/ A. Miranowicz, S. K. Özdemir, W. Leoński, M. Koashi, and N. Imoto:
    Optical qubit generation by linear and nonlinear quantum scissors,
    Proc. SPIE Int. Soc. Opt. Eng. 5259, 47-51 (2003).  [BIB] 
    Keywords: [linear quantum scissors], [nonlinear quantum scissors], [photon blockade], [Kerr effect]
  2. /57/ A. Miranowicz, S. K. Özdemir, Y.-X. Liu, W. Leoński, M. Koashi, N. Imoto, Y. Hirayama, and J. Bajer:
    Maximally entangled spin states in equivalent-neighbor systems of quantum dots in a microcavity,
    Proc. SPIE Int. Soc. Opt. Eng. 5259, 42-46 (2003) . [BIB] 
  3. /56/ W. Leoński, A. Miranowicz, and K. Piątek:
    Classical information entropy for single and two mode quantum fields,
    Proc. SPIE Int. Soc. Opt. Eng. 5259, 37-41 (2003) . [PDF]  [BIB] 
  4. /55/ W. Leoński, M. Walczak, and A. Miranowicz:
    A cavity with two-level atoms: Simulations and cellular automata method,
    Proc. SPIE Int. Soc. Opt. Eng. 5259, 411-414 (2003) . [PDF]  [BIB] 
  5. /54/ Y.-X. Liu, A. Miranowicz, S. K. Özdemir, M. Koashi, and N. Imoto:
    Size-dependent decoherence of excitonic states in semiconductor microcrystallites,
    Phys. Rev. A 67, 034303 (2003) ; arXiv:quant-ph/0304021 . [PDF]  [BIB]  [citations]

2002

  1. /53/ S. K. Özdemir, Y.-X. Liu, A. Miranowicz, T. Yamamoto, M. Koashi, and N. Imoto:
    Teleportation fidelity of noisy states,
    Proc. of IEICE Conf. on Quantum Information and Technology (QIT 7 ) (Tokyo, Japan, 2002) pp. 109-112.
  2. /52/ Y.-X. Liu, A. Miranowicz, M. Koashi, and N. Imoto:
    Realization of symmetric sharing of entanglement in semiconductor microcrystallites coupled by a cavity field,
    Phys. Rev. A  66, 062309 (2002) ; e-print arXiv:quant-ph/0212150 . [PDF]  [BIB]  [citations]
  3. /51/ J. Bajer, A. Miranowicz, and R. Tanaś:
    Limits of noise squeezing in Kerr effect,
    Czech. J. Phys. 52, 1313-1320 (2002) ; e-print arXiv:quant-ph/0212158  [PDF]  [BIB]  [citations]
  4. /50/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Pulse-mode quantum projection synthesis: Effects of mode mismatch on optical state truncation and preparation,
    Phys. Rev. A 66, 053809 (2002) ; e-print arXiv:quant-ph/0206072 . [PDF]  [BIB]  [citations]
  5. /49/ A. Miranowicz and K. Tamaki:
    Introduction to Quantum Teleportation,
    Math. Sciences (Suri-Kagaku)  473 (November 2002) 28-34 ; e-print arXiv:quant-ph/0302114 . [PDF (Japanese)]  [PDF (English)] 
    SECOND EDITION OF THIS ARTICLE
    in Century of Quantum Theory: The Paradigm of Quantum Information Entangled with a Mystery,
    a special issue of Math. Sciences (Suri-Kagaku)  (April 2006) 124-130 [PDF] 
  6. /48/ A. Miranowicz, S. K. Özdemir, Y.-X. Liu, M. Koashi and N. Imoto:
    Physical realizations and Wigner representation of coherent states of finite-dimensional Hilbert spaces,
    in: Analytical Study of Quantum Information and Related Fields, ed. M. Ohya, RIMS Kokyuroku  1266, 9-20 (2002)  [PDF-manuscript]  [DjVu]  [MathSciNet] 
  7. /47/ A. Miranowicz, S. K. Özdemir, Y.-X. Liu, M. Koashi, N. Imoto, and Y. Hirayama:
    Generation of maximum spin entanglement induced by cavity field in quantum-dot systems,
    Phys. Rev. A 65, 062321 (2002) ; e-print arXiv:quant-ph/0205030 . [PDF]  [BIB]  [citations]
  8. /46/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Qubit-State Generation Using Projection Synthesis,
    in: Foundations of Quantum Mechanics in the Light of New Technology - ISQM Tokyo'01, ed. Y. A. Ono and K. Fujikawa (World Scientific,  Singapore, 2002), p. 112-115.
  9. /45/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Optical qubit generation by state truncation using an experimentally feasible scheme,
    J. Mod. Opt. 49, 977-984 (2002). ; e-print arXiv:quant-ph/0204059  [PDF]  [BIB]  [citations]

2001

  1. /44/ A. Miranowicz, S. K. Özdemir, M. Koashi, N. Imoto, and Y. Hirayama:
    Comparative study of quantum information properties of the spin van der Waals models,
    Proc. of IEICE Conf. on Quantum Information and Technology (QIT 5 ) (Atsugi, Japan, 2001) pp. 211-215. [PDF] 
  2. /43/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Comparative study of resources for state preparation by projection synthesis,
    Proc. of IEICE Conf. on Quantum Information and Technology (QIT 5 ) (Atsugi, Japan, 2001) pp. 13-16. [PDF] 
  3. /42/ Y.-X. Liu, S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Entanglement of excitonic states in coupled dots,
    Proc. of IEICE Conf. on Quantum Information and Technology (QIT 5 ) (Atsugi, Japan, 2001) pp. 217-221. [PDF] 
  4. /41/ A. Miranowicz, S. K. Özdemir, M. Koashi, N. Imoto, and Y. Hirayama:
    Maximum entanglement of quantum-dot systems with single excitation in the spin van der Waals model,
    Technical Digest. CLEO/Pacific Rim 2001. 4th Pacific Rim Conference on Lasers and Electro-Optics, vol. 2, 2001, pp. 130-131 (Piscataway, NJ, USA); e-print arXiv:quant-ph/0109144 . [PDF] 
  5. /40/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Analysis of mode mismatch in quantum-scissors device,
    Technical Digest. CLEO/Pacific Rim 2001. 4th Pacific Rim Conference on Lasers and Electro-Optics, vol. 2, 2001, pp. 418-419 (Piscataway, NJ, USA). [PDF] 
  6. /39/ A. Miranowicz, J. Bajer, M. Koashi, and N. Imoto:
    Photon bunching and antibunching effects in non-stationary fields,
    in: Modern Nonlinear Optics, ed. M. W. Evans (Wiley, New York, 2001),
    Adv. Chem. Phys. 119(I), 515-527 (2001).  [PDF]  [BIB] 
    This article is a part of Section on Nonlinear phenomena in quantum optics by J. Bajer et al., ibid., pp. 491-601.
  7. /38/ J. Bajer and A. Miranowicz:
    Quantum, classical and semiclassical analyses of photon statistics in harmonic generation,
    in: Modern Nonlinear Optics, ed. M. W. Evans (Wiley, New York, 2001),
    Adv. Chem. Phys. 119(I), 493-515 (2001);  e-print arXiv:quant-ph/0109075 . [PDF]  [BIB] 
    This article is a part of Section on Nonlinear phenomena in quantum optics by J. Bajer et al., ibid., pp. 491-601.
  8. /37/ W. Leoński and A. Miranowicz:
    Quantum-optical states in finite-dimensional Hilbert space. II. State generation,
    in: Modern Nonlinear Optics, ed. M. W. Evans (Wiley, New York, 2001),
    Adv. Chem. Phys. 119(I), 195-213 (2001);  e-print arXiv:quant-ph/0110146 . [PDF]  [BIB]  [citations]
  9. /36/ A. Miranowicz, W. Leoński, and N. Imoto:
    Quantum-optical states in finite-dimensional Hilbert space. I. General formalism,
    in: Modern Nonlinear Optics, ed. M. W. Evans (Wiley, New York, 2001),
    Adv. Chem. Phys. 119(I), 155-193 (2001);  e-print arXiv:quant-ph/0108080 . [PDF]  [BIB]  [citations]
  10. /35/ A. Miranowicz, J. Bajer, M.R.B. Wahiddin, and N. Imoto:
    Wehrl information entropy and phase distributions of Schrödinger cat and cat-like states,
    J. Phys. A 34, 3887-3896 (2001) ; e-print arXiv:quant-ph/0107107 . [PDF]  [BIB]  [citations]
  11. /34/ J. Bajer and A. Miranowicz:
    Quantum vs classical enumerates of sub-Poissonian light generation in three-wave mixing,
    J. Optics B 3, 251 (2001) ; e-print arXiv:quant-ph/0107104 . [PDF]  [BIB]  [citations]
  12. /33/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Quantum-Scissors Device for Optical State Truncation: A Proposal for Practical Realization,
    Phys. Rev. A 64, 063818 (2001) ; e-print arXiv:quant-ph/0107048 . [PDF]  [BIB]  [citations]

2000

  1. /32/ A. Miranowicz, S. K. Özdemir, M. Koashi, and N. Imoto:
    Classical information of Schrödinger cat and cat-like states,
    Proc. of the IEICE Conference on Quantum Information and Technology (QIT 4 ) (Tokyo, Japan, 2000) 15-20.
  2. /31/ S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Experimental Scheme for State Truncation and Teleportation using Quantum Scissors,
    Proc. of the IEICE Conference on Quantum Information and Technology (QIT 4 ) (Tokyo, Japan, 2000) 9-13.
  3. /30/ A. Miranowicz, H. Matsueda, and M. Wahiddin:
    Classical information entropy and phase distributions of optical fields,
    J. Phys. A 33, 5159-5169 (2000).  [PDF]  [BIB]  [citations]
  4. /29/ J. Bajer and A. Miranowicz:
    Sub-Poissonian photon statistics of higher harmonics: Quantum predictions via classical trajectories,
    J. Opt. B 2, L10 (2000).  [PDF]  [BIB]  [citations] [HTML] 
  5. /28/ J. Bajer, O. Haderka, J. Perina, and A. Miranowicz:
    Sub-Poissonian light in third-harmonic generation: Quantum predictions via classical trajectories,
    Czech. J. Phys. 50, 717-726 (2000).  [PDF]  [BIB]  [citations]
  6. /27/ A. Miranowicz, H. Matsueda, and M. Wahiddin:
    Information-theoretic Wehrl entropy, its density, and Husimi function of optical fields,
    in: Mathematical Aspects of Quantum Information and Quantum Chaos, ed. M. Ohya, RIMS Kokyuroku  1142 (2000) 1-22 . [DjVu]  [MathSciNet] 

1999

  1. /26/ A. Miranowicz and H. Matsueda:
    Multi-particle entanglement in quantum-dot systems,
    Proc. of the IEICE Conf. on Quantum Information and Technology (QIT 2 ) (Osaka, Japan, 1999) 125-130.
  2. /25/ A. Miranowicz, J. Bajer, H. Matsueda, M. Wahiddin, and R. Tanaś:
    Comparative study of photon antibunching of non-stationary fields (part I),
    J. Optics B 1, 511-516 (1999).  [PDF]  [BIB]  [citations]
  3. /24/ A. Miranowicz, H. Matsueda, J. Bajer, M. Wahiddin, and R. Tanaś:
    Comparative study of photon bunching of classical fields (part II),
    J. Optics B 1, 603-609 (1999).  [PDF]  [BIB]  [citations]

1998

  1. /23/ A. Miranowicz, H. Matsueda, M. R. B. Wahiddin, and J. Bajer:
    Quasidistributions for frequency converter model,
    Acta Phys. Slov.  48, 293-300 (1998).  [PDF] 
  2. /22/ W. Leoński, R. Tanaś, and A. Miranowicz:
    Modification of squeezing in the kicked anharmonic oscillator model,
    in: D. Han et al. (Eds.), NASA Conf. Publication No. 206855 (NASA , Greenbelt, 1998) 233-238. [PDF] 
  3. /21/ A. Miranowicz, W. Leoński, and R. Tanaś:
    Finite-dimensional squeezed vacuum and its generation,
    in: D. Han et al. (Eds.), NASA Conf. Publication No. 206855 (NASA , Greenbelt, 1998) 91-96. [PDF] 
  4. /20/ A. Miranowicz, J. Bajer, W. Leoński, and R. Tanaś:
    Various approaches to photon antibunching in second-harmonic generation,
    in: D. Han et al. (Eds.), NASA Conf. Publication No. 206855 (NASA , Greenbelt, 1998) 427-433. [PDF] 

1997

  1. /19/ W. Leoński, A. Miranowicz, and R. Tanaś:
    Quasi-periodic and periodic evolution of field in a nonlinear medium,
    Laser Phys.  7 (1997) 126-130.  [PDF]  [citations]
  2. /18/ W. Leoński and A. Miranowicz:
    Higher-order displaced Kerr states,
    Acta Phys. Slov. 47, 311-314 (1997).  [PDF] 
  3. /17/ A. Miranowicz, J. Bajer, A. Ekert, and W. Leoński:
    Photon antibunching versus phantom antibunching,
    Acta Phys. Slov. 47 319-322 (1997).  [PDF] 
  4. /16/ A. Miranowicz, T. Opatrný, and J. Bajer:
    Harmonic-oscillator states in finite-dimensional Hilbert space,
    in: Quantum Optics and the Spectroscopy of Solids: Concepts and Advances, eds. T. Hakioglu and A. S. Shumovsky, Series in Fundamental Theories of Physics , Vol. 83  ( Kluwer , Dordrecht, 1997) 225-236. [DjVu] 

1996

  1. /15/ T. Opatrný, A. Miranowicz, and J. Bajer:
    Coherent states in finite-dimensional Hilbert space and their Wigner representation,
    J. Mod. Opt. 43, 417-432 (1996).  [PDF]  [BIB]  [citations]
  2. /14/ W. Leoński and A. Miranowicz:
    Quasi-periodic and periodic field evolution in finite-dimensional Hilbert space,
    Acta Phys. Slov. 46, 433-438 (1996).  [PDF] 
  3. /13/ A. Miranowicz, K. Piątek, and R. Tanaś:
    Number and phase correlations in Raman scattering,
    in: Notions and Perspectives of Nonlinear Optics , Series in Nonlinear Optics , vol. 3, ed. O. Keller (World Scientific, Singapore, 1996) 500-506. [PDF] 
  4. /12/ A. Miranowicz, W. Leoński, S. Dyrting, and R. Tanaś:
    Quantum state engineering in finite-dimensional Hilbert space,
    Acta Phys. Slov. 46, 451-456 (1996).  [citations] [PDF] 
  5. /11/ R. Tanaś, A. Miranowicz, and Ts. Gantsog:
    Quantum phase properties of nonlinear optical phenomena,
    ed. E. Wolf, Progress in Optics 35 (1996) 355-446  (Elsevier , North Holland). arXiv:1110.4602 . [PDF]  [DjVu]  [citations]

1995

  1. /10/ A. Miranowicz, K. Piątek, T. Opatrný, and R. Tanaś:
    Phase coherent states,
    Acta Phys. Slov. 45, 391-394 (1995).  [PDF]  [citations]
  2. /9/ M. Dębska-Kotłowska and A. Miranowicz:
    Spectral analysis of light scattered on macromolecules reoriented by a laser beam,
    J. Colloid and Interface Science 175 (1995) 318-325.  [PDF]  [BIB] 

1994

  1. /8/ A. Miranowicz, K. Piątek, and R. Tanaś:
    Coherent states in a finite-dimensional Hilbert space,
    Phys. Rev. A 50, 3423 (1994).  [PDF]  [BIB]  [citations]
  2. /7/ A. Miranowicz and S. Kielich:
    Quantum-statistical theory of Raman scattering processes,
    in: Modern Nonlinear Optics, eds. M. Evans and S. Kielich,
    Adv. Chem. Phys. 85(III) (1994) 531-626  (Wiley , New York), arXiv:1110.4959 . [PDF]  [DjVu]  [citations]

1993

  1. /6/ M. Dębska-Kotłowska and A. Miranowicz:
    Spectral analysis of light scattered by monodisperse solutions of rigid, anisotropic macromolecules in a reorienting ac electric field,
    in: Modern Nonlinear Optics, eds. M. Evans and S. Kielich,
    Adv. Chem. Phys. 85(I) (1993) 51-88  (Wiley , New York). [DjVu]  [BIB] 
  2. /5/ R. Tanaś, A. Miranowicz, and Ts. Gantsog:
    Phase distributions of real field states,
    special issue on Quantum Phase and Phase Dependent Measurements, eds. W. Schleich and S. M. Barnett,
    Phys. Scripta T48, 53-60 (1993).  [DjVu]  [BIB]  [citations]

1992

  1. /4/ Ts. Gantsog, A. Miranowicz, and R. Tanaś:
    Phase properties of real field states: The Garrison-Wong versus Pegg-Barnett predictions,
    Phys. Rev. A 46, 2870-2876 (1992).  [PDF]  [BIB]  [citations]

1991

  1. /3/ R. Tanaś, Ts. Gantsog, A. Miranowicz, and S. Kielich:
    Quasi-probability distribution Q(α,α*) versus phase distribution P(θ) in a enumerate of superpositions of coherent states,
    J. Opt. Soc. Am. B 8 (1991) 1576-1582.  [PDF]  [BIB]  [citations]
    Keywords: [Schrödinger cats], [Schrödinger kittens], [Kerr effect], [QPD], [phase distributions]
  2. /2/ R. Tanaś, A. Miranowicz, and S. Kielich:
    Squeezing and its graphical representations in the anharmonic oscillator model,
    Phys. Rev. A 43, 4014 (1991).  [PDF]  [BIB]  [citations]

1990

  1. /1/ A. Miranowicz, R. Tanaś, and S. Kielich:
    Generation of discrete superpositions of coherent states in the anharmonic oscillator model,
    Quantum Opt. 2, 253 (1990) , e-print arXiv:1111.0866 . [PDF]  [BIB]  [citations]
    Keywords: [Schrödinger cats], [Schrödinger kittens], [Kerr effect], [QPD]

Edited books

  1. E. Jakimowicz, A. Miranowicz (eds.):
    Stefan Banach - Remarkable life, Brilliant mathematics,
    Gdańsk University Press and Adam Mickiewicz University Press, Poznań-Gdańsk 2007, pp. 133
    (ISBN: 978-83-7326-451-9 )
  2. E. Jakimowicz, A. Miranowicz (red.):
    Stefan Banach. Niezwykłe życie i genialna matematyka,
    Wyd. UG i Wyd. Naukowe UAM, Poznań-Gdańsk 2007, str. 146, ISBN: 978-83-7326-450-2 );
    wydanie drugie rozszerzone, Wyd. Impuls, Kraków 2009, str. 202. ISBN: 978-83-7587-177-7 

Meeting Abstracts of the Physical Society of Japan

  1. S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    Nonclassicality of optical states prepared by quantum-scissors device with dissipative quantum channel,
    Mtg. Abstr. Phys. Soc. Jpn. 57(I) (2002) 119.
  2. A. Miranowicz, S. K. Özdemir, Y.-X. Liu, M. Koashi, N. Imoto, and Y. Hirayama:
    Stabilization of electron-spin entanglement in quantum-dot systems by nonresonant interactions,
    Mtg. Abstr. Phys. Soc. Jpn. 57(I) (2002) 117.
  3. S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    A study on teleported superposition states with quantum-scissors device using pulse-mode analysis,
    Mtg. Abstr. Phys. Soc. Jpn. 56(II) (2001) 60.
  4. A. Miranowicz, S. K. Özdemir, M. Koashi, and N. Imoto:
    Entanglement and information properties of the optical fields generated by Kerr effect,
    Mtg. Abstr. Phys. Soc. Jpn. 56(II) (2001) 72.
  5. S. K. Özdemir, A. Miranowicz, M. Koashi, and N. Imoto:
    On the verification of truncation process in quantum-scissors device,
    Mtg. Abstr. Phys. Soc. Jpn. 56(I) (2001) 109.
  6. A. Miranowicz, S. K. Özdemir, M. Koashi, and N. Imoto:
    Quantum-information properties of quantum dots in the spin van der Waals model,
    Mtg. Abstr. Phys. Soc. Jpn. 56(I) (2001) 89.
  7. A. Miranowicz, S. K. Özdemir, N. Imoto, and M. Koashi:
    Nonclassical states generated by optical state truncation,
    Mtg. Abstr. Phys. Soc. Jpn. 55(II) (2000) 108.
  8. S. K. Özdemir, A. Miranowicz, N. Imoto, and M. Koashi:
    Limitations and efficiency of optical state truncation by projection synthesis,
    Mtg. Abstr. Phys. Soc. Jpn. 55(II) (2000) 107.
  9. A. Miranowicz and H. Matsueda:
    Bipartite and multipartite pure-state entanglement of real quantum systems,
    Mtg. Abstr. Phys. Soc. Jpn. 55(I) (2000) 95.

Theses

  1. A. Miranowicz:
    Superpozycje stanów, rozkłady fazowe i quasi-prawdopodobieństwa kwantowych pól optycznych
    (Superposition states, phase distributions and quasiprobabilities of quantum optical fields),
    Doctor's Thesis, Adam Mickiewicz University, Poznań, 1994, 245 pages. [PDF] 
  2. A. Miranowicz:
    Splecenie kwantowe, dekoherencja oraz metody generacji kubitów i kuditów w optycznych układach nożyc kwantowych
    (Quantum entanglement, decoherence and methods for generation of qubits and qudits in optical systems of quantum scissors),
    Habilitation Thesis, Adam Mickiewicz University, Poznań, 2005.