|
|
|
|
|
2
|
Jeong San Kim and Barry Sanders. Unification of
monogamy inequalities of multi-party entanglement |
Fundamental quantum physics |
|
10
|
Rebecca Ronke, Irene D'Amico and Timothy P. Spiller.
Knitting distributed cluster state ladders with spin chains |
Generation and
testing of quantum source |
|
17
|
Wei-Tao Liu. Experimental quantum state tomography via
compressive sampling |
Generation and
testing of quantum source |
|
19
|
Peter Jupp, Peter Kim, Ja-Yong Koo and Aron Pasieka.
Testing for Pure State in Quantum Information Processing |
Generation and
testing of quantum source |
|
23
|
Pawel Kurzynski, Tomasz Paterek, Ravishankar
Ramanathan, Wieslaw Laskowski and Dagomir Kaszlikowski. Correlation
complementarity yields Bell monogamy relations |
Fundamental quantum
physics |
|
25
|
Haozhen Situ, Daowen Qiu, Paulo Mateus and Nikola
Paunkovic. Secure $N$-dimensional Simultaneous Dense Coding and Applications |
Computation,
complexity and communication |
|
26
|
Jong-Chan Lee, Youn-Chang Jeong, Yong-Su Kim and
Yoon-Ho Kim. Taming decoherence using a weak measurement and its reversal |
Generation and
testing of quantum source Experiment
|
|
29
|
Lvzhou Li and Daowen Qiu. Semi-quantum secret sharing
without entanglement |
Model |
|
30
|
Ting Gao and Yan Hong. Detection of genuinely entangled
and non-separable $n$-partite quantum states |
Information |
|
31
|
Fengli Yan, Ting Gao and Eric Chitambar. Two Local
Observables are Sufficient to Characterize Maximally Entangled States of $N$
Qubits |
Information |
|
34
|
Dagomir Kaszlikowski. Local Realism of Macroscopic
Correlations |
Fundamental quantum
physics |
|
39
|
Tomasz Paterek, Pawel Kurzynski, Daniel Oi and Dagomir
Kaszlikowski. Reference frames for Bell inequality violation in the presence
of superselection rules |
Fundamental quantum
physics |
|
44
|
Yoshifumi Nakata, Peter S. Turner and Mio Murao.
Simulating typical entanglement with many-body Hamiltonian dynamics in
polynomial time |
Generation and
testing of quantum source |
|
47
|
Clare Horsman, Austin Fowler and Rodney Van Meter.
Universal quantum computing on the planar surface code |
Computation,
complexity and communication |
|
50
|
Sooin Lim, Sungsam Kang, Myounggyu Hwang, Wookrae Kim,
Jung-Ryul Kim and Kyungwon An. Fast and efficient deterministic generation of
single photons in an atom-cavity system |
Experiment |
|
53
|
Yoonshik Kang, Jeakwon Ko, Sang Min Lee, Sang-Kyung
Choi, Byoung Yoon Kim and Hee Su Park. Electronically controllable mode
converter for measurement of spatial mode entanglement in optical fibers |
Experiment |
|
54
|
Sang Min Lee, Hee Su Park and Sang-Kyung Choi. Two
experimental methods for increasing the size of photonic graph state |
Experiment |
|
59
|
Mile Gu, Karoline Wiesner, Elisabeth Rieper and Vlatko
Vedral. Sharpening Occam's Razor with Quantum Mechanics |
Model |
|
71
|
Dominic Berry. Quantum algorithm for solving linear
differential equations |
Computation,
complexity and communication |
|
77
|
Guilherme Temporao and Jean Pierre Von Der Weid.
Practical implementation considerations of counterfactual quantum
cryptography |
Model |
|
78
|
Marcos Villagra, Masaki Nakanishi, Shigeru Yamashita
and Yasuhiko Nakashima. Quantum Query Complexity of Hamming Distance
Estimation |
Computation,
complexity and communication |
|
79
|
Wei Cui, Eric Chitambar and Hoi-Kwong Lo. Randomly
distilling W-class states into general configurations of two-party
entanglement |
Information |
|
80
|
Eric Chitambar, Wei Cui and Hoi-Kwong Lo. Increasing
Entanglement by Separable Operations and New Monotones for W-type |
Information |
|
81
|
Feihu Xu, Bing Qi, Xiongfeng Ma, He Xu, Haoxuan Zheng
and Hoi-Kwong Lo. An ultrafast and simple quantum random number generator
with quantum phase fluctuation |
Experiment Generation and
testing of quantum source
|
|
82
|
Nengkun Yu, Runyao Duan and Mingsheng Ying.
Distinguishing Maximally Entangled States by PPT Operations and Entanglement
Catalysis Discrimination |
Information |
|
83
|
Yingkai Ouyang. Improved Upper Bounds on the Quantum
Capacity of the Depolarizing Channel with Higher Dimension Amplitude Damping
Channels |
Computation,
complexity and communication |
|
85
|
Kyungdeock Park, Osama Moussa and Raymond Laflamme.
Testing of the Born Rule via Three Paths Interference using Nuclear Magnetic
Resonance |
Experiment |
|
94
|
Chi-Hang Fred Fung, H. F. Chau and Hoi-Kwong Lo.
Universal Squash Model For Optical Communications Using Linear Optics And
Threshold Detectors |
Model |
|
95
|
Elham Hosseini Lapasar, Kenichi Kasamatsu, Yasushi
Kondo, Mikio Nakahara and Tetsu Ohmi. Implementation of Selective Two-Qubit
Gate Operation in Neutral Atom Quantum Computer |
Model |
|
101
|
Sang Wook Kim, Kang-Hwan Kim, Takahiro Sagawa, Simone
De Liberato and Masahito Ueda. Knowledge is power: MaxwellˇŻs demon in the
quantum world |
Fundamental quantum
physics |