{"id":84,"date":"2014-08-31T15:11:27","date_gmt":"2014-08-31T06:11:27","guid":{"rendered":"http:\/\/aqis-conf.org\/2014\/?page_id=84"},"modified":"2014-08-31T15:11:27","modified_gmt":"2014-08-31T06:11:27","slug":"accepted-papers","status":"publish","type":"page","link":"https:\/\/aqis-conf.org\/2014\/accepted-papers\/","title":{"rendered":"Accepted Papers"},"content":{"rendered":"<div class=\"WordSection1\" style=\"layout-grid:18.0pt\">\n<h2>Long Talks<\/h2>\n<ul>\n<li>Richard Jozsa and Graeme Mitchison: Symmetric polynomials in information theory: entropy and subentropy\n<li>Yoshifumi Nakata, Masato Koashi and Mio Murao: Generating a state design by diagonal quantum circuits\n<li>Jonathan Barrett, Eric Cavalcanti, Raymond Lal and Owen Maroney: No psi-epistemic model can fully explain the indistinguishability of quantum states\n<li>Toby Cubitt, David Elkouss, William Matthews, Maris Ozols, David Perez-Garcia and Sergii Strelchuk: Unbounded number of channel uses are required to see quantum capacity\n<li>Rui-Bo Jin, Masahiro Takeoka, Utako Takagi, Ryosuke Shimizu and Masahide Sasaki: Highly efficient entanglement swapping at telecom wavelength\n<li>Nathan Killoran, Marcus Cramer and Martin Plenio: Identical particles as a resource for quantum information\n<li>Patrick Coles, Jedrzej Kaniewski and Stephanie Wehner: Equivalence of wave-particle duality to entropic uncertainty\n<li>Milan Mosonyi and Tomohiro Ogawa: Quantum Renyi divergences: operational interpretations and applications to composite coding problems\n<li>Sevag Gharibian, Zeph Landau, Seung Woo Shin and Guoming Wang: Tensor network non-zero testing\n<li>Marco Tulio Quintino, Tamas Vertesi and Nicolas Brunner: Joint Measurability, EPR Steering, and Bell Nonlocality\n<li>Nathan Wiebe and Martin Roetteler: Quantum arithmetic and numerical analysis using Repeat-Until-Success circuits\n<li>Sadiq Muhammad, Armin Takavoli, Maciej Kurant, Marcin Pawlowski, Marek Zukowski and Mohamed Bourennane: Quantum bidding in Bridge\n<\/ul>\n<h2>Short Talks<\/h2>\n<ul>\n<li>Manik Banik: Measurement-device-independent randomness certification by local entangled states\n<li>Jedrzej Kaniewski, Marco Tomamichel and Stephanie Wehner: Device-independent uncertainty for binary observables\n<li>Yuchun Wu: Compact Bell inequalities for multipartite experiments\n<li>Nengkun Yu, Cheng Guo and Runyao Duan: Obtain W-state from GHZ-state on rate 1\n<li>Nengkun Yu, Runyao Duan and Mingsheng Ying: Optimal simulation of Toffoli Gate, Deutsch Gates and Fredkin Gate\n<li>Peng Xue, Hao Qin, Bao Tang, Rong Zhang and Barry Sanders: Observation of localization and quasiperiodic dynamics in a one dimensional photonic quantum walk\n<li>Paul Jouguet, David Elkouss and Sebastien Kunz-Jacques: High Bit Rate Continuous-Variable Quantum Key Distribution\n<li>Teiko Heinosaari and Takayuki Miyadera: Universality of Sequential Quantum Measurements\n<li>Yoshifumi Nakata, Keisuke Fujii, Masayuki Ohzeki and Mio Murao: Measurement-based quantum computation protected by a long-range order induced by a thermal phase transition\n<li>Ting Gao, Fengli Yan and Steven van Enk: Permutationally Invariant Part of a Density Matrix and Nonseparability of N-Qubit States\n<li>Yuichiro Matsuzaki, Kosuke Kakuyanagi, Hiraku Toida, Takaaki Shimooka, Norikazu Mizuochi, Xiaobo Zhu, Kae Nemoto, William Munro, Kouichi Semba, Hiroshi Yamaguchi and Shiro Saito: Improving the coherence time of a quantum system via a coupling to a short-lived system\n<li>Tzyh Haur Yang, Tamas Vertesi, Jean-Daniel Bancal, Valerio Scarani and Miguel Navascues: Robust and versatile black-box certification of quantum devices\n<li>Nati Aharon, Serge Massar, Stefano Pironio and Jonathan Silman: CHSH-Based Device-Independent Bit Commitment\n<li>Yu Tomita and Krysta M. Svore: Low-distance Surface Codes under Realistic Quantum Noise\n<li><s>Leandro Aolita: Quantum certification of photonic quantum simulations<\/s> <font color=red>Withdrawn<\/font>\n<li>Stefan Arnold: Identifying generalized Reed-Muller codewords by quantum queries\n<li>Dave Wecker and Krysta M. Svore: LIQUi|>: A Software Design Architecture and Domain-Specific Language for Quantum Computing\n<li>Kosuke Ito, Wataru Kumagai and Masahito Hayashi: Asymptotic Entanglement Preservability of LOCC Conversions\n<li>Yi-Chan Lee, Min-Hsiu Hsieh, Steven Flammia and Ray-Kuang Lee: Local PT Symmetry Violates the No-Signaling Principle\n<li>Kosuke Nakago, Michal Hajdusek, Shojun Nakayama and Mio Murao: Parallelized adiabatic gate teleportation\n<li><s>Naresh Sharma: A strong converse for the quantum state merging protocol<\/s> <font color=red>Withdrawn<\/font>\n<li>Tomotaka Kuwahara, Itai Arad, Luigi Amico and Vlatko Vedral: Complexity of gapped ground states in general k-local Hamiltonians\n<li>Nilanjana Datta, Francesco Buscemi and Sergii Strelchuk: Game-theoretic characterization of antidegradable channels\n<li>Nicolas Brunner, Marc Kaplan, Anthony Leverrier and Paul Skrzypczyk: Dimension of physical systems, information processing, and thermodynamics\n<li>Vladyslav Usenko and Radim Filip: Continuous-variable quantum communication over fluctuating channels\n<li>Seiseki Akibue, Masaki Owari, Go Kato and Mio Murao: Globalness of separable maps in terms of classical indefinite causal correlations\n<li>Hidefumi Hiraishi, Hiroshi Imai, Yoichi Iwata and Bingkai Lin: BDD Representations for Quantum Graph State and Ising model\n<li>Eyuri Wakakuwa and Mio Murao: Asymptotic Compressibility of Entanglement and Classical Communication in Distributed Quantum Computation\n<li>Fabian Furrer: Reverse Reconciliation Continuous Variable Quantum Key Distribution Based on the Uncertainty Principle\n<li>Joe Henson, Raymond Lal and Matthew Pusey: Theory-independent limits on correlations from generalised Bayesian networks\n<li>Lucian Comandar, Bernd Frohlich, Marco Lucamarini, Ketaki Patel, Andrew Sharpe, James Dynes, Zhiliang Yuan, Richard Penty and Andrew Shields: Long distance quantum key distribution with room temperature single-photon detectors\n<li>Laura Mancinska, David Roberson and Antonios Varvitsiotis: Two characterizations of nonlocal games with perfect maximally entangled strategies\n<\/ul>\n<h2>Posters<\/h2>\n<ul>\n<li>Yi-Tao Wang, Jian-Shun Tang, Yu-Long Li, Chuan-Feng Li and Guang-Can Guo: Proposal for generating telecommunication-wavelength entangled photon pairs from a quantum dot by frequency down-conversion\n<li>Lukasz Czekaj, Anna Przysi??na, Michal Horodecki and Pawel Horodecki: Quantum metrology: Heisenberg limit with bound entanglement\n<li>Zhen-Qiang Yin, Yunguang Han, Wei Chen, Guangcan Guo and Zheng-Fu Han: Secure and practical quantum key distribution based on Ping-Pong protocol\n<li>Michele Dall&#8217;Arno: Accessible Information of Quantum Ensembles and Informational Power of Quantum Measurements\n<li>Yueh-Nan Chen, Che-Ming Li, Neill Lambert, Shin-Liang Chen, Yukihiro Ota, Guang-Yin Chen and Franco Nori: Steering Inequality in Time\n<li>Samyadeb Bhattacharya: Sustainable coherence for two level atom tunneling through squeezed vacuum from the context of weak measurement\n<li>Byung-Soo Choi: Use of Code Teleportation for Resource Optimal Quantum Computation\n<li>Petr Marek: Optimal probabilistic measurement of phase\n<li>Marcin Wiesniak, Junghee Ryu and Arijit Dutta: Bell inequalities for GHZ states of arbitrary dimensionality\n<li>Hyang-Tag Lim, Young-Sik Ra, Kang-Hee Hong, Seung-Woo Lee and Yoon-Ho Kim: Observation of fundamental bounds in quantum measurements for estimating quantum states\n<li>Youn-Chang Jeong, Carlo Di Franco, Hyang-Tag Lim, M. S. Kim and Yoon-Ho Kim: A delayed-choice two-dimensional quantum walk\n<li>Masataka Iinuma, Yutaro Suzuki, Taiki Nii, Ryuji Kinoshita and Holger F. Hofmann: Physical meaning and experimental evaluation of error and disturbance in a two-level system\n<li>Jong-Chan Lee, Yong-Su Kim, Young-Sik Ra, Hyang-Tag Lim and Yoon-Ho Kim: Scheme for directly observing the noncommutativity of the position and momentum operators with single-photon quantum interference\n<li>Lin Chen and Li Yu: Nonlocal and controlled unitary operators of Schmidt rank three\n<li>Michal Mi?uda, Michal Sedlak, Ivo Straka, Martina Mikova, Miloslav Du?ek, Miroslav Je?ek and Jaromir Fiura?ek: Optical quantum information processing with inherently stable bulk interferometer\n<li>Young-Sik Ra, Malte Tichy, Hyang-Tag Lim, Osung Kwon, Florian Mintert, Andreas Buchleitner and Yoon-Ho Kim: Experimental observation of detection-dependent multi-photon coherence times\n<li>Sheng-Mei Zhao, Wen-Qiang Liang, Long-Yan Gong, Weiwen Cheng and Fei Li: Optical encryption based on QR-coded compressive ghost imaging\n<li>Wataru Kumagai and Masahito Hayashi: Asymptotics of LOCC Conversion and LOCC Cloning by a New Kind of Probability Distributions\n<li>Guang-Yin Chen and Yueh-Nan Chen: Scattering of microwave photons in superconducting transmission line resonators coupled to charge qubits\n<li>Young-Wook Cho, Kwang-Kyoon Park, Jong-Chan Lee and Yoon-Ho Kim: Engineering nonclassical time correlation of narrowband biphotons from cold atoms\n<li>Peter Wittek: Transduction and Active Learning in the Quantum Learning of Unitary Transformations\n<li>Syungo Asano, Kenji Nakahira and Tsuyoshi Usuda: Approximation of minimum error probability in distinguishing M-ary quantum signals using the trace distance between two neighboring signals\n<li>Jun Suzuki: Entanglement detection from channel parameter estimation problem\n<li>Marcin Wiesniak, Christian Schwemmer, Lukas Knips, Nico Klein, Shiraz Habib and Harald Weinfurter: Minimal Multipartite EntanglementDetection\n<li>Seungho Yang, Jinhyoung Lee and Hyunseok Jeong: A lower bound on the distinguishability of quantum states in terms of entropies\n<li>Jun-Yi Wu, Matteo Rossi, Hermann Kampermann, Simone Severini, Leong Chuan Kwek, Chiara Macchiavello and Dagmar Brus: Randomized graph states and their entanglement properties\n<li>Ramij Rahaman, Marcin Wiesniak and Marek Zukowski: Quantum Byzantine Agreement via Hardy correlations and entanglement swapping\n<li>Kang-Hee Hong, Jong-Chan Lee, Hyang-Tag Lim and Yoon-Ho Kim: Overcoming entanglement sudden death using single-qubit quantum measurement reversal\n<li>Shiladitya Mal, Manik Banik and Sujit K Choudhary: Certifiable randomness from temporal correlation\n<li>Fred Fung and H. F. Chau: Physical time-energy cost of a quantum process determines its information fidelity\n<li>Jayne Thompson, Mile Gu, Kavan Modi and Vlatko Vedral: Modular Quantum Computing\n<li>Yan Hong, Ting Gao and Fengli Yan: Measure of multipartite entanglement with computable lower bounds\n<li>Omkar Srikrishna, Srikanth Radhakrishna and Subhashish Banerjee: Online Quantum Process Tomography via Quantum Error correction\n<li>Hirokazu Kobayashi and Yutaka Shikano: Stereographical Tomography of Polarization State via Weak Measurement with Optical Vortex Beam\n<li>Shiou-An Wang and Chin-Yung Lu: Security Analysis of a Quantum Secure Communication Network with Multicast Communication\n<li>Akihiro Mizutani, Kiyoshi Tamaki, Rikizo Ikuta, Takashi Yamamoto and Nobuyuki Imoto: Measurement-device-independent quantum key distribution for Scarani-Acin-Ribordy-Gisin 04 protocol\n<li>Kabgyun Jeong, Jaewan Kim and Su-Yong Lee: Squeezed Gaussian private quantum channel\n<li>Martin Plesch and Matej Pivoluska: Device Independent Randomness Amplification with a Single Device\n<li>Chin-Yung Lu and Shiou-An Wang: The Critical Path Method for Quantum Boolean Circuits Construction\n<li>Junghee Ryu, Seokwon Yoo, Zhi Yin, James Lim, Jeongwoo Jae, Jinhyoung Lee and Marek Zukowski: Verification if a given algorithm is quantum\n<li>Takanori Sugiyama: Precision-guaranteed quantum metrology with exact confidence interval\n<li>Ryota Wakabayashi, Mikio Fujiwara, Masahide Sasaki and Takao Aoki: Time-bin entangled photon-pair generation using Si micro-ring resonator\n<li>Yutaro Suzuki, Masataka Iinuma, Ryuji Kinoshita, Mayu Miyamoto and Holger F. Hofmann: Optical investigation of complex joint probabilities via sequential measurements\n<li>Fernando Rojas Iniguez and Francisco Antonio Dominguez Serna: Quantum teleportation with charge-spin hybrid states in quantum dots\n<li>Francisco Antonio Dominguez Serna and Fernando Rojas Iniguez: Quantum correlations, discord and entanglement of single photon added coherent states and displaced Fock states\n<li>Shinji Koyama, Kenji Nakahira and Tsuyoshi Usuda: Error performance of modied Kennedy receiver in the presence of phase noise\n<li>Shoichiro Fukuyama, Rodney Van Meter and Masami Hagiya: A compiler for Universal Blind Quantum Computation\n<li>You-Lin Chuang, Chien-Chung Jeng, Ite Yu and Ray-Kuang Lee: Non-separated states from squeezed dark-state polaritons in electromagnetically-induced-transparency media\n<li>Wonmin Son and Kyunghyun Baek: Effects of generalized measurement in uncertainty principles\n<li>Hiroyasu Tajima and Masahito Hayashi: Refinement of Carnot&#8217;s Theorem by using quantum information techniques; Asymptotics of Thermodynamics with Finite-Size systems\n<li>Prabha Mandayam and M. D. Srinivas: A class of distance-based incompatibility measures for quantum observables\n<li>Yuki Doi, Toshiharu Makino, Hiromitsu Kato, Daisuke Takeuchi, Mutsuo Ogura, Hideyo Okushi, Hiroki Morishita, Toshiyuki Tashima, Shinji Miwa, Satoshi Yamasaki, Philipp Neumann, Joerg Wrachtrup, Yoshishige Suzuki and Norikazu Mizuochi: Deterministic charge state control of single NV center in diamond with p-i-n diamond diode\n<li>Xin Cao and Yun Shang: Extended abstract for fermionic one way quantum computation\n<li>\nRona Barbarona and Francis N.C. Paraan: Integer effects in the spin-orbit entanglement entropy in a 2D electron system with Rashba interactions<\/p>\n<li>Jan Bouda, Marcin Pawlowski, Matej Pivoluska and Martin Plesch: Device-Independent Randomness Extraction for Arbitrarily Weak Min-Entropy Source\n<li>Kenji Tsujino, Toshio Yamaguchi, Midori Matsumoto and Junji Kinoshita: Improved photon detection efficiency of sub-Geiger mode InGaAs APD single-photon detector using a low-noise charge-sensitive amplifier\n<li>Ebubechukwu Ilo-Okeke and Tim Byrnes: Single-shot theory for phase contrast imaging of spinor Bose-Einstein condensates\n<li>Kiyotaka Nomizu, Akihisa Tomita and Atsushi Okamoto: Quantization of Classical Nonlinear Dynamics with Feedback Control\n<li>Gwang-Il Bae and Wonmin Son: Axiomatic Approach for Generic Bell Function.\n<li>Jaehak Lee, Se-Wan Ji, Jiyong Park and Hyunchul Nha: Continuous-variable dense coding via a general Gaussian state: Monogamy relation\n<li>Yuxiang Yang, Giulio Chiribella and Gerardo Adesso: Certifying quantumness: Benchmarks for the optimal processing of generalized coherent states\n<li>Xin Cao and Yun Shang: Open quantum walks with absorbing boundary\n<li>Le Wang and Shengmei Zhao: Decoy-State Measurement-Device-Independent Quantum-Key-Distribution Protocol using Orbital Angular Momentum States in Free-Space Links\n<li>Francis Bayocboc and Francis N. C. Paraan: Work fluctuations in quantum quenches in the XY model\n<li>Monisha Loganathan: A Generalized Quantum Inspired Evolutionary Algorithm for Signature &#8211; based Intrusion Detection Systems\n<li>Alex Bocharov, Martin Roetteler and Krysta Svore: Efficient Synthesis of Universal Repeat-Until-Success Circuits\n<li>Miroslav Gavenda, Radim Filip, Ivo Straka and Miroslav Jezek: Enhancement of entanglement by a local filtration of thermal noise\n<li>Se-Wan Ji, Myung Shik Kim and Hyunchul Nha: EPR steering of Gaussian states by Gaussian measurements: Monopoly relation and Peres Conjecture\n<li>Srijita Kundu and Prabha Mandayam: Accessible fidelity, incompatibility and entropic uncertainty\n<li>Prabha Mandayam and M. D. Srinivas: A disturbance tradeoff principle for incompatible quantum observables\n<li>Jiyong Park, Se-Wan Ji, Jaehak Lee and Hyunchul Nha: Detecting nonclassicality beyond Gaussian mixtures under energy constraint\n<li>Kenta Sugiyama, Akihisa Tomita and Atsushi Okamoto: Entanglement swapping with bound entanglement\n<li>Ariel Bendersky, Gonzalo de La Torre, Gabriel Senno, Santiago Figueira and Antonio Acin: Implications of computer science principles for quantum physics\n<li>Adel Sohbi, Isabelle Zaquine, Eleni Diamanti and Damian Markham: Decoherence Effects on the Non-locality of Symmetric States\n<li>Kohtaro Kato, Fabian Furrer and Mio Murao: Information theoretical formulation of anyonic entanglement\n<li>Michael Bremner and Daniel Shepherd: Instantaneous Quantum Polynomial-time algorithms for determining properties of codes\n<li>Eric Chitambar, Min-Hsiu Hsieh and Andreas Winter: The Asymptotic Secret Key Cost of Preparing an Arbitrary Tripartite Distribution with Collaboration\n<li>Yuki Mori, Akihito Soeda and Mio Murao: Numerical analysis of multipartite entanglement in terms of the geometric measure\n<li>Jisho Miyazaki, Michal Hajdusek and Mio Murao: Translating measurement-based quantum computations with gflow into quantum circuits\n<li>Tanmay Singal and Sibasish Ghosh: Minimum error discrimination for an ensemble of linearly independent pure states\n<li>Akihito Soeda, Shojun Nakayama and Mio Murao: Circuit model implementation of controllization functional on unitary with multiple fractional queries\n<li>Youn-Chang Jeong, Young-Sun Song and Yoon-Ho Kim: Bright source of polarization-entangled photon pairs based on multi-mode diode pump laser\n<li>Hou Ian: Quantum information processing with quasi-lattices of superconducting qubits\n<li>Fangyi Li, Dong Wang, Shuang Wang, Mo Li, Xiaotian Song, Zhenqiang Yin, Hongwei Li, Wei Chen and Zhengfu Han: Effect of electromagnetic disturbance on the practical QKD system in smart grid\n<\/ul>\n","protected":false},"excerpt":{"rendered":"<p>Long Talks Richard Jozsa and Graeme Mitchison: Symmetric polynomials in information theory: entropy and subentropy Yoshifumi Nakata, Masato Koashi and Mio Murao: Generating a state design by diagonal quantum circuits Jonathan Barrett, Eric Cavalcanti, Raymond Lal and Owen Maroney: No psi-epistemic model can fully explain the indistinguishability of quantum states Toby Cubitt, David Elkouss, William\u2026 <span class=\"read-more\"><a href=\"https:\/\/aqis-conf.org\/2014\/accepted-papers\/\">Read More &raquo;<\/a><\/span><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"open","ping_status":"open","template":"","meta":{"footnotes":""},"class_list":["post-84","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/pages\/84","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/comments?post=84"}],"version-history":[{"count":4,"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/pages\/84\/revisions"}],"predecessor-version":[{"id":88,"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/pages\/84\/revisions\/88"}],"wp:attachment":[{"href":"https:\/\/aqis-conf.org\/2014\/wp-json\/wp\/v2\/media?parent=84"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}