Articles are published in the Open Systems and Information Dynamics, New Journal of Physics, Frontiers in Physics, Entropy, the Journal of Mathematical Physics, IEEE Journal on Selected Areas on Communication, IEEE Transactions on Computers, IEEE Internt Computing, IEEE Quantum Communication, Networks, Ccomputing (QCNC), Physical Review A, Physical Review X Quantum, Physical Review Letters, Nature Communications, Scientific Reports, spj Intelligent Computing, Reports on Progress of Physics, the Journal of Physics A:Mathematical and Theoretical ...
The List of Selected Publications
- Sequential quantum maximum-confidence discrimination Hanwool Lee, Kieran Flatt, and Jooonwoo Bae Phys. Rev. A 112, 052206 (2025)- Secure Quantum Communication with the Preservation of Optimal Measurements, IEEE Journal on Selected Areas in Communications (2025) H. Ko et. al.- Purification of noisy measurements and faithful distillation of entanglement, Journal of Physics A: Mathematical and General 58 03LT01 (2025)
Jaemin Kim, Jiyoung Yun, and Joonwoo Bae- Quantum advantages in (n,d)->1 random access codes, New Journal of Physics 26 123023 (2024) Andris Ambainis, Dmitry Kravchenko, Sk Sazim, Joonwoo Bae, and Ashutosh Rai - Detecting Entanglement-Generating Circuits in Cloud-Based Quantum Computing, Jiheon Seong and Joonwoo Bae, spj Intelligent Computing 2 0051 (2023)
- Contextual Advantages and Certification for Maximum Confidence Discrimination Kieran Flatt, Hanwool Lee, Carles Roch i Carceller, Jonathan Bohr Brask, and Joonwoo Bae, PRX Quantum 3 030307 (2022) - A hybrid quantum-classical approach to mitigating measurement errors in quantum algorithms
Hyeokjea Kwon and Joonwoo Bae, IEEE Transactions on Computers, Vol 70 (9) 1401 (2021) - Non-Local Network Coding in Interference Channels Jiyoung Yun, Ashutosh Rai, and Joonwoo Bae, Physical Review Letters 125 150502 (2020)-Channel Coding of a Quantum Measurement S. Kechrimparis, C. M. Kropf, F. Wudarski, and J. Bae*, IEEE Journal on Selected Areas in Communications, Vol 38, No 3, 439 (2020) see Erratum IEEE JSAC Vol 38 No 5 980 (2020) Link-Mirrored Entanglement Witnesses J. Bae, D. Chruscinski, and B. Hiesmayr, npj Quantum Information 6 15 (2020) - More Entanglement Implies Higher Performance in Channel Discrimination TasksJ. Bae, D. Chruscinski, and M. Piani, Physical Review Letters 122 140404 (2019)- Linking entanglement detection and state tomography via quantum 2-designJ. Bae, B. Hiesmayr, and D. McNulty, New Journal of Physics, 21 013012 (2019).- (invited review) Designing Quantum Information Processing via Structural Physical Approximations J. Bae, Reports on Progress in Physics, Vol 80, 10 (2017).- Operational Characterization of Divisibility of Dynamical Maps J. Bae and D. Chruscinski, Physical Review Letters 117, 050403 (2016).- (invited review) Quantum State Discrimination and Its ApplicationsJ. Bae and L.-C. Kwek, Journal of Physics A: Mathematical and Theoretical 48 083001 (2015). - Structure of minimum-error quantum state discriminationJ. Bae, New Journal of Physics 15 073037 (2013).- No-Signaling Principle Can Determine Optimal Quantum State DiscriminationJ. Bae, W.-Y. Hwang, and Y.-D. Han, Physical Review Letters 107, 170403 (2011).- Experimental Realization of an Approximate Partial Transpose for Photonic Two-Qubit Systems H.-T. Lim*, Y.-S. Ra, Y.-S. Kim, J. Bae*, Y.-H. Kim*, Physical Review Letters 107, 160401 (2011).- Non-secret correlations can be used to distribute secrecyJ. Bae, Toby Cubit and Antonio Acin, Physical Review A 79, 032304 (2009).- Structural physical approximation to positive maps and entanglement breaking channelsJ. K. Korbicz, M. L. Almeida, J. Bae, M. Lewenstein, A. Acin, Physical Review A 78, 062105 (2008).- Key distillabtion from quantum channels using two-way communication protocols J. Bae and Antonio Acín, Physical Review A 75, 012334 (2007).- Asymptotic quantum cloning is state estimation J. Bae and Antonio Acín, Physical Review Letters 97, 030402 (2006).- Quantum Key Distillation from Gaussian States by Gaussian Operations M. Navascues, J. Bae, J. I. Cirac, M. Lewenstein, A. Sanpera, A. Acín, Phys. Rev. Letts. 94, 010502 (2005).
Conferences[1] Feature Map for Quantum Data in Classification, Talk@IEEE International Conference on Quantum Communications, Networking, and Computing (QCNC 2024) Hyeokjea Kwon, Hojun Lee and Joonwoo Bae
Publications[77] Sequential quantum maximum-confidence discrimination Hanwool Lee, Kieran Flatt, and Jooonwoo Bae Phys. Rev. A 112, 052206 (2025)[76] A mirrored pair of optimal non-decomposable entanglement witnesses for two qudits does exist Dariusz Chruscinski, Anindita Bera, Joonwoo Bae, and Beatrix Hiesmayr, Scientific Reports 15 28205 (2025)[75] Machine-learning certification of multipartite entanglement for noisy quantum hardware, New Journal of Physics (2025) [Link] Andreas J. C. Fuchs, Eric Brunner, Jiheon Seong, Hyeokjea Kwon, Seungchan Seo, Joonwoo Bae, Andreas Buchleitner and Edoardo G Carnio[74] Secure Quantum Communication with the Preservation of Optimal Measurements, IEEE Journal on Selected Areas in Communications, H. Ko et. al.[73*]Comment on a No-Go Theorem for psi-Ontic Models. Found Phys 55, 23 (2025). L. Walleghem, S. Khanna, S. and R. Bhavsar[72*] Enhancing Key Rates of QKD Protocol by Coincidence Detection, Advanced Quantum Technologies (2025) Tanya Sharma, Rutvij Bhavsar, Jayanth Ramakrishnan, Pooja Chandravanshi, Shashi Prabhakar, Ayan Biswas, R. P. Singh[71] Improved bounds on quantum uncommon information, Journal of Physics A: Mathematical and Theoretical 58 055304 (2025) Yonghae Lee, Joonwoo Bae, Hayata Yamasaki and Soojoon Lee [70] Purification of noisy measurements and faithful distillation of entanglement, Journal of Physics A: Mathematical and Theoretical 58 03LT01 (2025)
Jaemin Kim, Jiyoung Yun, and Joonwoo Bae[69] Quantum advantages in (n,d)->1 random access codes, New Journal of Physics 26 123023 (2024) Andris Ambainis, Dmitry Kravchenko, Sk Sazim, Joonwoo Bae, and Ashutosh Rai [68] Detecting Entanglement-Generating Circuits in Cloud-Based Quantum Computing, spj Intelligent Computing 2 0051 (2023) EurekAlert[Link] Jiheon Seong and Joonwoo Bae[67] Entanglement witness measurement of time-bin two-qubit states using fiber based Franson interferometers, Frontiers in Physics 11 1254044 (2023) Hwang K, Seong J, Park K, Kim J, Pramanik T, Bae J and Shin H [65] On the structure of mirrored operators obtained from optimal entanglement witnesses Anindita Bera, Joonwoo Bae, Beatrix Hiesmayr, and Dariusz Chruscinski, Scientific Reports 13 10733 (2023)[64*] Distillting Nonlocality in Quantum Correlations Sahil Gopalkrishna Naik, Govind Lal Sidhardh, Samrat Sen, Arup Roy, Ashutosh Rai, and Manik Banik, Physical Review Letters 130 220201 (2023)[63] How many mutually unbiased bases are needed to detect bound entangled states? Joonwoo Bae, Anindita Bera, Dariusz Chruściński, Beatrix C Hiesmayr and Daniel McNulty, Journal of Physics A: Mathematical and Theoretical 55 505303 (2022)[62] Correlations in noisy measurements Seungchan Seo, Jiheon Seong, and Joonwoo Bae, Open Systems & Information Dynamics (OSID) Vol. 29 No. 02 2250009 (2022)[61] Single-copy certification of two-qubit gates without entanglement Yujun Choi, Tanmay Singal, Young-Wook Cho, Sang-Wook Han, Kyunghwan Oh, Sung Moon, Yong-Su Kim, and Joonwoo Bae, Phys. Rev. Applied 18, 044046 (2022) [60] Maximum-confidence measurements for qubit states Hanwool Lee, Kieran Flatt, Carles Roch i Carceller, Jonathan Bohr Brask, and Joonwoo Bae, Physical Review A 106, 032422 (2022) [59] Contextual advantages and Certification for Maximum Confidence Discrimination Kieran Flatt, Hanwool Lee, Carles Roch i Carceller, Jonathan Bohr Brask, and Joonwoo Bae, PRX Quantum 3 030307 (2022) [58] Quantum vs. Noncontextual Semi-Device-Independent Randomness Certification Carles Roch i Carceller, Kieran Flatt, Hanwool Lee, Joonwoo Bae, and Jonathan Bohr Brask, Physical Review Letters 129 050501 (2022)[57*] Self-testing quantum states via nonmaximal violation in Hardy's test of nonlocality",
Ashutosh Rai, Matej Pivoluska, Souradeep Sasmal, Manik Banik, Sibasish Ghosh, and Martin Plesch, Phys. Rev. A 105, 052227 (2022)[56] Measurement crosstalk errors in cloud-based quantum computing Seungchan Seo and Joonwoo Bae, IEEE Internet Computing Vol 26 Issue 1 page 26-33 (2022)[55] Quantum amplitude amplification operators (QAAO)
Hyeokjea Kwon and Joonwoo Bae, Physical Review A 104 062438 (2021) Editors' Suggestion[54*] Belief-invariant and quantum equilibria in games of incomplete information V. Auletta, D. Ferraioli, A. Rai, G. Scarpa, and A. Winter, Theoretical Computer Science, Vol 895 4 151-177 (2021)[53] Detecting entanglement ca be more effective with inequivalent mutually unbiased bases
B. Hiesmayr, D. McNulty, S Baek, S. Singha Roy, J. Bae, and D. Chruscinski, New. J. Phys. 23 093018 (2021) [52] A hybrid quantum-classical approach to mitigating measurement errors in quantum algorithms
Hyeokjea Kwon and Joonwoo Bae, IEEE Transactions on Computers, Vol 70 (9) 1401 (2021) [51*] Device-independent bounds from Cabello's nonlocality argument
Ashutosh Rai et. al., Phys. Rev. A. 103 062219 (2021) [50] Optimal measurement preserving qubit channels
Spiros Kechrimparis and Joonwoo Bae, New J. Phys. 22 123024 (2020)[49] Non-Local Network Coding in Interference Channels Jiyoung Yun, Ashutosh Rai, and Joonwoo Bae, Physical Review Letters 125 150502 (2020)[48] Channel Coding of a Quantum Measurement S. Kechrimparis, C. M. Kropf, F. Wudarski, and J. Bae*, IEEE Journal on Selected Areas in Communications, Vol 38, No 3, 439 (2020) see Erratum IEEE JSAC Vol 38 No 5 980 (2020) Link[47] Mirrored Entanglement Witnesses J. Bae, D. Chruscinski, and B. Hiesmayr, npj Quantum Information 6 15 (2020)[46*] Two-Qubit Pure Entanglement as Optimal Social Welfare Resource in Bayesian Game Manik Banik, Some Sankar Bhattacharya, Nirman Ganguly, Tamal Guha, Amit Mukherjee, Ashutosh Rai, and Arup Roy, Quantum 3, 185 (2019)[45] Information-theoretic meaning of quantum information flow and its applications to amplitude amplification algorithms Sudipto Singha Roy and J. Bae, Phys. Rev. A 100, 032303 (2019) [44] Quantifying the nonclassicality of pure dephasing H.-B. Chen, P.-Y. Lo, C. Gneiting, J. Bae, Y.-N. Chen, and F. Nori, Nature Communications 10 3794 (2019) [43] Preserving measurements for optimal state discrimination over quantum channels S. Kechrimparis, C. Kropf, and J. Bae, Physical Review A 99 062302 (2019)[42] More Entanglement Implies Higher Performance in Channel Discrimination Tasks J. Bae, D. Chruscinski, and M. Piani, Physical Review Letters 122 140404 (2019)[41] Linking entanglement detection and state tomography via quantum 2-design J. Bae, B. Hiesmayr, and D. McNulty, New Journal of Physics, 21 013012 (2019)
[40] Designing Quantum Information Processing via Structural Physical Approximations J. Bae, Reports on Progress in Physics, Vol 80, 10 (2017).[39] Improved measurement-device-independent quantum key distribution with uncharacterized qubits W.-Y. Hwang, H.-Y. Su, and J. Bae, Physical Review A 95 062313 (2017).[38] Distilling Entanglement with Noisy Operations J. Chang, J. Bae, and Y. Kwon, International Journal of Quantum Information, 15, 1750019 (2017).[37] (invited Research Review) Guessing and Certifying Information in Quantum Systems J. Bae, AAPPS Bulletin, Vol 15 No 5 (2016).[36] Operational Characterization of Divisibility of Dynamical Maps J. Bae and D. Chruscinski, Physical Review Letters 117, 050403 (2016).[35] N dimensional measurement-device-independent quantum key distribution with N+1 uncharacterized sources: zero quantum-bit-error-rate cases W.-Y. Hwang, H.-Y. Su, J. Bae, Scientific Reports 6, 30036 (2016).[34] Structure of Optimal State Discrimination in Generalized Probabilistic Theories J. Bae and L.-C. Kwek, Entropy, 18, 39 (2016). [33] Discrimination of Two-Qubit Unitaries via Local Operations and Classical Communication J. Bae, Scientific Reports 5, 18270 (2015).[32] (invited Topical Review) Quantum State Discrimination and Its Applications J. Bae and L.-C. Kwek, Journal of Physics A: Mathematical and Theoretical 48 083001 (2015). [31] No-Signaling Quantum Key Distribution – Solution by Linear Programming W.-Y. Hwang, J. Bae and Nathan Kiloran, Quantum Information and Processing (QIP) 14 687 (2015).[30] (Proceedings) Distinguishability, Ensemble Steering, and the No-Signaling Principle J. Bae, Electronic Proceedings in Theoretical Computer Science 171, pp. 26–32 (2014). *REMARK: Proceedings 10th International Workshop on Quantum Physics and Logic[29] Checking the optimality of entanglement witnesses: an application to structural physical approximations R. Augusiak, J. Bae, L. Czekaj, M. Lewenstein, J. Phys. A; Math. Theor. 47 065301 (2014).[28] Structure of minimum-error quantum state discrimination J. Bae, New Journal of Physics 15 073037 (2013).[27] Approximate transpose map via quantum designs and its applications to entanglement detection Amir Kalev and J. Bae, Physical Review A 87 062314 (2013).[26] Optimal Discrimination of Qubit States – Methods, Solutions, and Properties J. Bae and Won-Young Hwang, Physical Review A 87 012334 (2013).[25] Experimental realisation of an approximate transpose operation for qutrit systems using structural physical approximation H.-T. Lim, Y.-S. Ra, Y.-S. Kim, J. Bae, and Y.-H. Kim,Physical Review A 86, 042334 (2012).[24] No-Signaling Principle Can Determine Optimal Quantum State Discrimination J. Bae, W.-Y. Hwang, and Y.-D. Han, Physical Review Letters 107, 170403 (2011).[23] Experimental Realization of an Approximate Partial Transpose for Photonic Two-Qubit Systems H.-T. Lim, Y.-S. Ra, Y.-S. Kim, J. Bae, Y.-H. Kim, Physical Review Letters 107, 160401 (2011).[22] Superactivation, unlockability, and secrecy distribution of bound information G. Prottico and J. Bae, Physical Review A 83, 042336 (2011)[21] On structural physical approximations and entanglement breaking maps R. Augusiak, J. Bae, L. Czekaj, and M. Lewenstein, Journal of Physics A: Math. and Gen. 44, 185303 (2011).[20] Experimental Implementation of the Universal Transpose Operation H.-T. Lim, Y.-S. Ra, Y.-S. Kim, J. Bae, and Y.-H. Kim, Physical Review A 83, 020301(R) (2011).[19] Optimal quantum state estimation by the no-signaling principle Yeong-Duk Han, J. Bae, X.-B. Wang and Won-Young Hwang, Physical Review A 82, 062318 (2010).[18] Entanglement, geometry, and detection of nonclasscial states Kisik Kim, Jaewan Kim, and J. Bae, Physical Review A 82, 042105 (2010).[17] Secret key distillation from shielded two-qubit states J. Bae, Physical Review A 81, 052320 (2010).[16] Minimum-error state discrimination constrained by the no-signalling principle Won-Young Hwang and J. Bae, Journal of Mathematical Physics 51, 022202 (2010)[15] Detection and typicality of bound entangled states J. Bae, M. Tiersch, S. Sauer, F. Melo, F. Mintert, B. Hiesmayr, A. Buchleitner, Phy. Rev. A 80, 022317 (2009).[14] Non-secret correlations can be used to distribute secrecy J. Bae, Toby Cubit and Antonio Acin, Physical Review A 79, 032304 (2009).[13] Structural physical approximation to positive maps and entanglement breaking channels J. K. Korbicz, M. L. Almeida, J. Bae, M. Lewenstein, A. Acin, Physical Review A 78, 062105 (2008).[12] Optimality of minimum-error discrimination by the no-signalling condition J. Bae, Jae-Weon Lee, Jaewan Kim and Won-Young Hwang, Physical Review A 78, 022335 (2008).[11] Key distillabtion from quantum channels using two-way communication protocols J. Bae and Antonio Acín, Physical Review A 75, 012334 (2007).[10] Asymptotic quantum cloning is state estimation J. Bae and Antonio Acín, Physical Review Letters 97, 030402 (2006).[9] Secrecy properties of quantum channels A. Acín, J. Bae, E. Bagan, M. Baig, Ll. Masanes, and R. Muñoz-Tapia, Physics Review A 73, 012327 (2006).[8] Quantum Key Distillation from Gaussian States by Gaussian Operations M. Navascues, J. Bae, J. I. Cirac, M. Lewenstein, A. Sanpera, A. Acín, Phys. Rev. Letts. 94, 010502 (2005).[7] Wavelet Quantum Search Algorithm with Partial Information S. Park, J. Bae and Y. Kwon, Chaos, Solitons& Fractals 32, 1371 (2007).[6] Three-party quantum teleportation with asymmetric states J. Bae, J. Jin, J. Kim, C. Yoon,and Y. Kwon, Chaos, Solitons& Fractals 24, 1047(2005).[5] Interaction-aided continuous time quantum search J. Bae, Y Kwon, I. Baek, and D. Yoon, Chaos, Solitons& Fractals 24, 103 (2004).[4] Perturbations can enhance quantum search J. Bae and Y. Kwon, International Journal of Theoretical Physics 42, 2075 (2003).[3] Speedup in quantum adiabatic evolution algorithm J. Bae and Y. Kwon, Z. Naturforsch 58a, 1 (2003).[2] Maximum speed-up in quantum search J. Bae and Y. Kwon, International Journal of Theoretical Physics 42, 2069 (2003).[1] Generalized quantum search Hamiltonians J. Bae and Y. Kwon, Physical Review A 66, 012314 (2002).
[*] Publications without the PI.