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	总计	2019 年至今
引用	368	254
h 指数	11	10
i10 指数	13	11

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Subhashish BanerjeeIndian Institute of Technology Jodhpur, India在 iitj.ac.in 的电子邮件经过验证
R. SrikanthPoornaprajna Institute of Scientific Research在 poornaprajna.org 的电子邮件经过验证
Hyunseok JeongProfessor of Physics, Seoul National University在 snu.ac.kr 的电子邮件经过验证
Yong Siah TeoSeoul National University, Seoul, South Korea在 snu.ac.kr 的电子邮件经过验证
Ashutosh Kumar AlokIIT Jodhpur在 iitj.ac.in 的电子邮件经过验证
Anirban PathakProfessor, JIIT, Noida, India在 jiit.ac.in 的电子邮件经过验证
Kishore ThapliyalJoint Laboratory of Optics of Palacky University in Olomouc在 upol.cz 的电子邮件经过验证
Bobby Tan Kok ChuanProfessor, Insitute of Fundamental and Frontier Sciences, Chengdu在 uestc.edu.cn 的电子邮件经过验证
Anil ShajiIISER Thiruvananthapuram在 iisertvm.ac.in 的电子邮件经过验证

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S. Omkar

Seoul National University, South Korea

在 snu.ac.kr 的电子邮件经过验证

Fault Tolerant Quantum Computing Quantum Information Theory


标题按引用次数排序按年份排序按标题排序	引用次数引用次数	年份
Quasiprobability distributions in open quantum systems: spin-qubit systems K Thapliyal, S Banerjee, A Pathak, S Omkar, V Ravishankar Annals of Physics 362, 261-286, 2015	45	2015
The quantum cryptographic switch N Srinatha, S Omkar, R Srikanth, S Banerjee, A Pathak Quantum information processing 13, 59-70, 2014	45	2014
Dissipative and non-dissipative single-qubit channels: dynamics and geometry S Omkar, R Srikanth, S Banerjee Quantum information processing 12, 3725-3744, 2013	43	2013
Resource-efficient topological fault-tolerant quantum computation with hybrid entanglement of light S Omkar, YS Teo, H Jeong Physical Review Letters 125 (6), 060501, 2020	34	2020
The Unruh effect interpreted as a quantum noise channel S Omkar, S Banerjee, R Srikanth, AK Alok arXiv preprint arXiv:1408.1477, 2014	33	2014
Quantum Fisher and skew information for Unruh accelerated Dirac qubit S Banerjee, AK Alok, S Omkar The European Physical Journal C 76, 1-9, 2016	26	2016
Characterization of quantum dynamics using quantum error correction S Omkar, R Srikanth, S Banerjee Physical Review A 91 (1), 012324, 2015	26	2015
Characterization of Unruh channel in the context of open quantum systems S Banerjee, A Kumar Alok, S Omkar, R Srikanth Journal of High Energy Physics 2017 (2), 1-24, 2017	23	2017
All-photonic architecture for scalable quantum computing with greenberger-horne-zeilinger states S Omkar, SH Lee, YS Teo, SW Lee, H Jeong PRX Quantum 3 (3), 030309, 2022	22	2022
Quantum code for quantum error characterization S Omkar, R Srikanth, S Banerjee Physical Review A 91 (5), 052309, 2015	15	2015
The operator-sum-difference representation of a quantum noise channel S Omkar, R Srikanth, S Banerjee Quantum Information Processing 14, 2255-2269, 2015	11	2015
Highly photon-loss-tolerant quantum computing using hybrid qubits S Omkar, YS Teo, SW Lee, H Jeong Physical Review A 103 (3), 032602, 2021	10	2021
Quantum-error-correction-assisted quantum metrology without entanglement KC Tan, S Omkar, H Jeong Physical Review A 100 (2), 022312, 2019	10	2019
High photon-loss threshold quantum computing using GHZ-state measurements B Pankovich, A Kan, KH Wan, M Ostmann, A Neville, S Omkar, A Sohbi, ... arXiv preprint arXiv:2308.04192, 2023	7	2023
Parity-encoding-based quantum computing with Bayesian error tracking SH Lee, S Omkar, YS Teo, H Jeong npj Quantum Information 9 (1), 39, 2023	5	2023
The two-qubit amplitude damping channel: Characterization using quantum stabilizer codes S Omkar, R Srikanth, S Banerjee, A Shaji Annals of Physics 373, 145-162, 2016	4	2016
Quantum critical environment assisted quantum magnetometer N Jaseem, S Omkar, A Shaji Journal of Physics A: Mathematical and Theoretical 51 (17), 175309, 2018	3	2018
Flexible entangled state generation in linear optics B Pankovich, A Neville, A Kan, S Omkar, KH Wan, K Brádler arXiv preprint arXiv:2310.06832, 2023	2	2023
Coherence as a unit resource for quantum error correction KC Tan, S Omkar, H Jeong arXiv preprint arXiv:1704.07572, 2017	2	2017
Loss-tolerant linear optical quantum computing under nonideal fusions using multiphoton qubits SH Lee, S Omkar, Y Siah Teo, H Jeong arXiv e-prints, arXiv: 2207.06805, 2022	1	2022

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