The following 46 papers are accepted.
9 |
Practical Evaluation of Security for Quantum Key Distribution |
Masahito Hayashi |
13 |
Generic Entanglement is Physical. |
R. Oliveira, O.Dahlsten, M.Plenio |
14 |
Information-Disturbance Tradeoff in Quantum State Discrimination |
F. Buscemi and M. F. Sacchi |
16 |
Schemes for realizing frequency up- and down-conversions in two-mode cavity QED |
Xubo Zou, Yuli Dong and Guangcan Guo |
20 |
Sufficient conditions for quantum adiabatic approximation |
Ming-Yong Ye, Xiang-Fa Zhou, Yong-Sheng Zhang, and Guang-Can Guo |
26 |
Atomistic theories of dot molecule quantum gates |
Lixin He |
28 |
Experimental Entanglement Distillation of Two-Qubit Mixed States Under Local filtering Operations |
Zhi-Wei Wang,Xiang-Fa Zhou,Yun-Feng Huang,Yong-Sheng Zhang,Xi-Feng Ren,Guang-Can Guo |
30 |
Multi-Target Block Partial Search |
Byung-Soo Choi |
35 |
Surface plasmon assistant transmission |
Guo-Ping Guo, Xi-Feng Ren, Yun-Feng Huang, Chuan-Feng Li, Zhe-Yu Ou and Guang-Can Guo |
37 |
Equivalent qubit dynamics under classical and quantum noise |
O.-P. Saira, V. Bergholm, T. Ojanen, and M. Möttönen |
42 |
On the distinguishability of random quantum states |
Ashley Montanaro |
43 |
Hamiltonian Oracles |
Carlos Mochon |
45 |
Experimental Studies on |
Yi Zhao, Bing Qi, Xiongfeng Ma, Hoi-Kwong Lo, and Li Qian |
47 |
Entanglement-assisted quantum error correction |
Todd Brun, Igor Devetak, and Min-Hsiu Hsieh |
55 |
Realization of Wheeler's "delayed-choice" experiment with single-photon interference. |
V. Jacques, |
56 |
State estimation from pair of conjugate qudits |
Xiang-Fa Zhou, Yong-Sheng Zhang, Guang-Can Guo |
59 |
Always On Non-Nearest-Neighbor Coupling in Scalable Quantum Computing |
Yong Hu, Zheng-Wei Zhou and Guang-Can Guo |
64 |
New Quantum Bounds for the Claw Finding Problem |
Seiichiro Tani |
65 |
Efficient quantum algorithms for simulating sparse Hamiltonians |
Barry C. Sanders, Dominic W. Berry, Graeme Ahokas, and Richard Cleve |
68 |
Experimental demonstration of phase measurement precision beating shot noise limit |
F. W. Sun, B. H. Liu, Y. X. Gong, Z. Y. Ou, Y. F. Huang, and G. C. Guo |
69 |
Security of quantum key distribution protocol with two-way classical communication assisted by one-time pad encryption |
Shun Watanabe, Ryutaroh Matsumoto, Tomohiko Uyematsu |
70 |
An analysis of the quality of charge qubit measurement by a strongly coupled single-electron transistor |
Neil P. Oxtoby, H. M. Wiseman and He-Bi Sun |
71 |
Collapsing Quantum Digital Signatures |
Yasuhito Kawano Go Kato |
73 |
Quantum Brachistochrone |
Alberto Carlini, Akio Hosoya, Tatsuhiko Koike, and Yosuke Okudaira |
74 |
Bounds on Quantum Correlations in |
Yeong-Cherng Liang, Andrew C. Doherty |
82 |
Demonstration of Controllable Temporal Distinguishability in a |
Bi-Heng Liu, Fang-Wen Sun, Yan-Xiao Gong, Yun-Feng Huang, Zhe-Yu Ou, and Guang-Can Guo |
83 |
Classical simulation of limited-width cluster-state quantum computation |
Nadav Yoran and Anthony J. Short |
85 |
Brokered Graph-state Quantum Computation |
D.E.Browne, S.C. Benjamin, J. Fitzsimons, J.L. Morton |
86 |
Mott transitions and XY spin models in coupled cavity arrays |
D.G. Angelakis, M. Santos,S. Bose |
88 |
Decoy state quantum key distribution with two-way classical post-processing |
Xiongfeng Ma, Chi-Hang Fred Fung, Frédéric Dupuis, Kai Chen, Kiyoshi Tamaki and Hoi-Kwong Lo |
90 |
Quantum Cellular Automata and NMR Single-Spin Measurement |
Carlos A. Perez-Delgado, Donny Cheung, Michele Mosca, Paola Cappellaro, David G. Cory |
91 |
CQED-enhanced Single Photon Sources From InGaAs Quantum Dots |
C.Y. Hu, Y-L. D. Ho, R. Gibson and J.G. Rarity M. Fox, J. Timpson, D. Sanvitto, A. Darei, M. Hopkinson and M. S. Skolnick |
93 |
Polyhedral and semidefinite
approaches to classical and quantum |
David Avis, Tsuyoshi Ito |
95 |
Quantum gate operations and state tomography in a nanometre-scale NMR device |
S. K. Ozdemir, A. Miranowicz, T. Ota, G. Yusa, K. Muraki, N. Imoto, Y. Hirayama |
98 |
A Hindrance to Present Schemes of Reverse Reconciliation Continuous Variable Quantum Key Distribution |
Zhao Yi-BO, Gui You-Zhen, Chen Jin-Jian, Han Zheng-Fu, Guo Guang-Can |
99 |
Entanglement via Adiabatic Quantum Computation |
Sangchul Oh and Jaewan Kim |
100 |
Molecular-Spin Quantum Computing by the Use of Electron and Nuclear Spins |
Kazunobu Sato, Robabeh Rahimi, Nobuyuki Mori, Shinsuke Nishida, Kazuo Toyota, Daisuke Shiomi, Yasushi Morita, Akira Ueda, Shuichi Suzuki, Ko Furukawa, Toshikazu Nakamura, Masahiro Kitagawa, Kazuhiro Nakasuji, Mikio Nakahara, Hideyuki Hara, Patrick Carl, Peter Hoefer, and Takeji Takui |
106 |
On the quantum chromatics number of a graph |
Peter J. Cameron, Mike W. Newman, Simone Severini, and Andreas Winter |
109 |
Quantum Property Testing for Solvable Groups |
Yoshifumi Inui |
110 |
Security proof of quantum key distribution protocols with and without rotational symmetry |
David Shirokoff, Chi-Hang Fred Fung, and Hoi-Kwong Lo |
114 |
Robustness of an Improved Protocol for QKD with Classical Bob |
Michel Boyer, Dan Kenigsberg, Tal Mor |
120 |
Distilling three-party W-like states to randomly shared two-party entanglement |
Ben Fortescue, Hoi-Kwong Lo |
121 |
Non-local tasks with no quantum advantage |
Noah Linden, Sandu Popescu, Anthony J.Short, Andreas Winter |
126 |
Entanglement, area, and the problem of finding ground states of many-body systems |
J. Eisert, M. Cramer, M.B. Plenio |
128 |
Improving Quantum Computer Simulation |
Guido Arnold |
129 |
Generalised non-locality: A trade-off between strength and versatility |
Anthony J. Short, Jonathan Barrett |
The following 52 papers are accepted.
1 |
2 |
Entanglement in a Quantum Mixed-Spin Chain |
Xiang Hao, Shiqun Zhu |
2 |
7 |
Effects of Anisotropy on Pairwise Entanglement of a Four-qubit Heisenberg XXZ Chain |
Min Cao and Shiqun Zhu |
3 |
10 |
Quantum bit commitment using quantum algorithm |
Guang Ping He |
4 |
11 |
Effect of vacuum-induced coherence in a four-level atomic system |
Chen Jun, Liu Zhengdong |
5 |
12 |
Monogamy inequality for distributed Gaussian entanglement |
Tohya Hiroshima, Gerardo Adesso, and Fabrizio Illuminati |
6 |
15 |
Preparation of microwave single-photon state with superconducting circuit QED |
Yun-Feng Xiao Xu-Bo Zou Yong Hu Zheng-Fu Han Guang-Can Guo |
7 |
17 |
Computation of topological charges of optical vortices via non-degenerate four-wave-mixing |
Wei Jiang, Qun-feng Chen, Yong-sheng Zhang, G. -C. Guo |
8 |
18 |
An efficient quantum circuit for addition in GF(p) and Shor's algorithm |
Yasuhiro Takahashi, Noboru Kunihiro, and Kazuo Ohta |
9 |
21 |
How to determine the existence of the common entanglement witnesses for some entangled states |
YuChun Wu and GuangCan Guo |
10 |
23 |
A finite statistics protocol for quantum key distribution |
Jim Harrington, Mark Ettinger, Patrick Rice, Richard Hughes, Jane Nordholt |
11 |
24 |
Controlled decoherence-free subspace/subsystem for open quantum dynamical systems |
Ming Zhang, Wei-Wei Zhou, HongWei Xie and Dewen Hu |
12 |
25 |
Plasmon assisted transmission of high dimensional orbital angular momentum entangled state |
Xi-Feng Ren,Guo-Ping Guo,Yun-Feng Huang,Chuan-Feng Li,Guang-Can Guo |
13 |
27 |
Quantum secure communication scheme with W state |
Jian wang, Quan Zhang, Chao-jing Tang |
14 |
33 |
Strong monotonicity in mixed-state entanglement manipulation |
Satoshi Ishizaka |
15 |
34 |
Demonstration of Temporal Distinguishability in a |
Guo-Yong Xiang, Yun-Feng Huang, Fang-Weng Sun, |
16 |
39 |
A quantum-mathematical model to state single photon(electron) double slit experiment, Fresnel and Fraunhofer diffractins |
Akbar Rahmani Nejad |
17 |
41 |
Controlled quantum key distribution protocol with entangled state |
Jian Wang, Quan Zhang, Chao-jing Tang |
18 |
44 |
Implication of the Lüders Postulate for the Distinguishability of Observables |
Bernhard K. Meister |
19 |
48 |
Lower Bounds on the Average Base Length of Lossless Quantum Data Compression |
Hsin-Hung Chou and Jay Cheng |
20 |
49 |
A New Interpretation of the Planck Constant and Wave-Particle Duality Based on Micro-Photon Theory |
Liang-Zao Fan and Jing-Song Feng |
21 |
50 |
Secure Controlled Teleportation |
Dan Kenigsberg and Tal Mor |
22 |
51 |
Enhanced single-photon emission from single quantum dots in two-dimensional photonic crystal cavities |
Xiulai Xu, Frederic S. F. Brossard, David A. Williams, Robert A. Taylor, Kwan H. Lee and Felix Waldemann |
23 |
52 |
Quantum secret sharing between m-party and n-party with six states |
Ting Gao, Fengli Yan |
24 |
57 |
Quantum Key Distribution with Vacuum-One-Photon Qubits |
Lee Su-Yong, Se Wan Jie, Jae-Weon Lee, Ho Joon Kim, and Hai-Woong Lee |
25 |
58 |
Quantum Key Distribution Network With Wavelength Addressing |
|
26 |
62 |
Pairwise thermal entanglement in a generalized Jaynes-Cummings model of three two-level atoms interact with a single-mode cavity |
Guo-Feng Zhang;Shu-Shen Li |
27 |
63 |
Experimental demonstration of quadrature entanglement using laser pulses |
Yun Zhang, Tatsuya Furuta and Takuya Hirano |
28 |
66 |
Generalization of Landauer's Information Erasure Principle |
J.A. Vaccaro S.M. Barnett |
29 |
67 |
3dB squeezing at telecommunication wavelength using pulsed homodyne detector |
Takashi Tajima, Yujiro Eto, Yun Zhang and Takuya Hirano. |
30 |
72 |
Applying Quantum Search Algorithm to Attack Advanced Encryption Standard(AES) |
Phaneendra H.D. , Dr. M.S. Shivakumar |
31 |
75 |
Robustness of multiparty nonlocality to local decoherence |
Sung Soon Jang, Yong Wook Cheong, Jaewan Kim, and Hai-Woong Lee |
32 |
76 |
Separability of the Scalar Quantum Fields Vacuum with a Boundary |
Jae-Weon Lee;Jaewan Kim;Taesung Choi |
33 |
77 |
Quantum Secret Sharing Extended from Quantum Key Distribution |
Wei-tao Liu, Lin-mei Liang Cheng-zu Li Jian-min Yuan |
34 |
81 |
Quantum direct communication without public announcement of basis |
Ming Gao, Shuang Wu |
35 |
84 |
Quantum entangled state controlled by ultrashort laser |
Xiang-yang Yu, Xiao-dong Zhang, and Zheng-wen Zhang |
36 |
87 |
Problems of security in quantum key distribution with floating basis protocol. |
Yury Kurochkin, Vladimir Kurochkin. |
37 |
89 |
Run-time analysis of quantum algorithm for solution to a graph problem |
Vidya Raj C. and Dr. M.S.Shivakumar |
38 |
94 |
Quantum simulation of the Fermi-Hubbard model using a two-dimensional electron gas and surface acoustic waves |
Shoko Utsunomiya, Tim Byrnes, Patrik Recher, Na Young Kim, and Yoshihisa Yamamoto |
39 |
96 |
Secure Quantum Bit Commitment Using Unstable Particles |
Chi-Yee Cheung |
40 |
97 |
Quantum Computation and Quantum Language in Genomes |
Guang-Gui Bao, Ai-Fei Bao |
41 |
101 |
$(4,1)$-Quantum Random Access Coding Does Not Exist -- One qubit is not enough to recover one of four bits -- |
Masahito Hayashi, Kazuo Iwama, Harumichi Nishimura, Rudy Raymond and Shigeru Yamashita |
42 |
103 |
Remote implementations of partially unknown quantum operations of multiqubits |
An Min Wang |
43 |
104 |
Controlled and combined remote implementations of partially unknown quantum operations of multiqubits using GHZ states |
An Min Wang |
44 |
105 |
off-diagonal geometric phase for mixed states in experiment of Franson interferometer |
Yun-Kun Jiang, Jian Li, and Akihisa Tomita |
45 |
107 |
Fiber quantum cryptography setup with auto-compensating scheme. |
V.L.Kurochkin, A.V.Zverev, Y.V.Kurochkin, I.I.Ryabtsev, I.G.Neizvestny, S.Moon, B.S.Bae, H.J.Shin, J.B.Park, C.W.Park |
46 |
112 |
Information Geometry of Mean Field Approximation for Quantum Boltzmann Machines |
Nihal Yapage AND Hiroshi Nagaoka |
47 |
113 |
Quantum master equation descriptions of a chage qubit coupled to a single-electron transistor |
Chien Hung Lin and H.-S. Goan |
48 |
115 |
Modular Logic and |
Ilze Dzelme-Bērziņa |
49 |
118 |
Channels with memory and many-body physics. |
Shashank Virmani and Martin Plenio |
50 |
122 |
An Efficient Approximation of SU(d) Using Decomposition |
Hiroyuki Nishiyama, Masaki Nakanishi, Shigeru Yamashita, Yasuhiro Nakashima |
51 |
124 |
A computable bounds of deterministic LOCC discrimination in a multipartite system |
Masaki Owari. Masahito Hayashi, and Keiji Matsumoto |
52 |
127 |
Large Scale Quantum Computer Simulator |
Marcus Richter |