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Dax Enshan Koh
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2020 – today
- 2024
- [i17]Nikhil Bansal, Wai-Keong Mok, Kishor Bharti, Dax Enshan Koh, Tobias Haug:
Pseudorandom density matrices. CoRR abs/2407.11607 (2024) - [i16]Dax Enshan Koh, Kaavya Kumar, Siong Thye Goh:
Quantum Volunteer's Dilemma. CoRR abs/2409.05708 (2024) - 2023
- [i15]Tobias Haug, Kishor Bharti, Dax Enshan Koh:
Pseudorandom unitaries are neither real nor sparse nor noise-robust. CoRR abs/2306.11677 (2023) - [i14]Rahul Arvind, Kishor Bharti, Jun Yong Khoo, Dax Enshan Koh, Jian Feng Kong:
A quantum tug of war between randomness and symmetries on homogeneous spaces. CoRR abs/2309.05253 (2023) - 2022
- [j5]Dax Enshan Koh, Sabee Grewal:
Classical Shadows With Noise. Quantum 6: 776 (2022) - [j4]Amara Katabarwa, Sukin Sim, Dax Enshan Koh, Pierre-Luc Dallaire-Demers:
Connecting geometry and performance of two-qubit parameterized quantum circuits. Quantum 6: 782 (2022) - [i13]Kaifeng Bu, Roy J. Garcia, Arthur Jaffe, Dax Enshan Koh, Lu Li:
Complexity of quantum circuits via sensitivity, magic, and coherence. CoRR abs/2204.12051 (2022) - [i12]Lu Li, Kaifeng Bu, Dax Enshan Koh, Arthur Jaffe, Seth Lloyd:
Wasserstein Complexity of Quantum Circuits. CoRR abs/2208.06306 (2022) - 2021
- [i11]Kaifeng Bu, Dax Enshan Koh, Lu Li, Qingxian Luo, Yaobo Zhang:
On the statistical complexity of quantum circuits. CoRR abs/2101.06154 (2021) - [i10]Kaifeng Bu, Dax Enshan Koh, Lu Li, Qingxian Luo, Yaobo Zhang:
Effects of quantum resources on the statistical complexity of quantum circuits. CoRR abs/2102.03282 (2021) - 2020
- [j3]Alexander M. Dalzell, Aram Wettroth Harrow, Dax Enshan Koh, Rolando L. La Placa:
How many qubits are needed for quantum computational supremacy? Quantum 4: 264 (2020) - [i9]Dax Enshan Koh, Sabee Grewal:
Classical Shadows with Noise. CoRR abs/2011.11580 (2020)
2010 – 2019
- 2019
- [i8]Kaifeng Bu, Dax Enshan Koh:
Efficient classical simulation of Clifford circuits with nonstabilizer input states. CoRR abs/1902.11257 (2019) - 2018
- [c2]Adam Bouland, Joseph F. Fitzsimons, Dax Enshan Koh:
Complexity Classification of Conjugated Clifford Circuits. CCC 2018: 21:1-21:25 - [i7]Jacob D. Biamonte, Mauro E. S. Morales, Dax Enshan Koh:
Quantum Supremacy Lower Bounds by Entanglement Scaling. CoRR abs/1808.00460 (2018) - 2017
- [j2]Dax Enshan Koh:
Further extensions of Clifford circuits and their classical simulation complexities. Quantum Inf. Comput. 17(3&4): 262-282 (2017) - [j1]Dax Enshan Koh, Mark D. Penney, Robert W. Spekkens:
Computing quopit Clifford circuit amplitudes by the sum-over-paths technique. Quantum Inf. Comput. 17(13&14): 1081-1095 (2017) - [i6]Dax Enshan Koh, Murphy Yuezhen Niu, Theodore J. Yoder:
Quantum simulation from the bottom up: the case of rebits. CoRR abs/1708.09355 (2017) - [i5]Adam Bouland, Joseph F. Fitzsimons, Dax Enshan Koh:
Quantum Advantage from Conjugated Clifford Circuits. CoRR abs/1709.01805 (2017) - 2016
- [i4]Dax Enshan Koh:
Further extensions of Clifford circuits and their classical simulation complexities. Electron. Colloquium Comput. Complex. TR16 (2016) - [i3]Zi-Wen Liu, Christopher Perry, Yechao Zhu, Dax Enshan Koh, Scott Aaronson:
Doubly infinite separation of quantum information and communication. Electron. Colloquium Comput. Complex. TR16 (2016) - 2015
- [i2]Zi-Wen Liu, Christopher Perry, Yechao Zhu, Dax Enshan Koh, Scott Aaronson:
Doubly infinite separation of quantum information and communication. CoRR abs/1507.03546 (2015) - [i1]Dax Enshan Koh:
Further extensions of Clifford circuits and their classical simulation complexities. CoRR abs/1512.07892 (2015) - 2012
- [c1]Dax Enshan Koh, Michael J. W. Hall, Setiawan, James E. Pope, Artur Ekert, Alastair Kay, Valerio Scarani:
The Effects of Free Will on Randomness Expansion. TQC 2012: 98-106
Coauthor Index
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last updated on 2024-10-22 21:19 CEST by the dblp team
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