The poster walls support A0(841*1189 mm) portrait format.<\/p>\n
1. Bin Cheng and Man-Hong Yung<\/strong> The poster walls support A0(841*1189 mm) portrait format. 1. Bin Cheng and Man-Hong Yung Ubiquitous Complexity of Entanglement Spectra 2. Shiou-An Wang and Chin-Yung Lu Secure Quantum Wireless Communication Network 3. Chin-Yung Lu and Shiou-An Wang The Simplified Method for Reversible Circuit Using Basic Quantum Gates 4. Yuxiang Yang Memory effects in quantum metrology 5.\u2026 Read More »<\/a><\/span><\/p>\n","protected":false},"author":3,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-295","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/pages\/295","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/users\/3"}],"replies":[{"embeddable":true,"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/comments?post=295"}],"version-history":[{"count":8,"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/pages\/295\/revisions"}],"predecessor-version":[{"id":339,"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/pages\/295\/revisions\/339"}],"wp:attachment":[{"href":"https:\/\/aqis-conf.org\/2019\/wp-json\/wp\/v2\/media?parent=295"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
\nUbiquitous Complexity of Entanglement Spectra<\/em>
\n2. Shiou-An Wang and Chin-Yung Lu<\/strong>
\nSecure Quantum Wireless Communication Network<\/em>
\n3. Chin-Yung Lu and Shiou-An Wang<\/strong>
\nThe Simplified Method for Reversible Circuit Using Basic Quantum Gates<\/em>
\n4. Yuxiang Yang<\/strong>
\nMemory effects in quantum metrology<\/em>
\n5. Changpeng Shao<\/strong>
\nSimulate neural networks in the quantum computer<\/em>
\n6. Adel Sohbi and Jaewan Kim<\/strong>
\nA Logical Proof of Quantum Correlations Requiring Entanglement Measurements<\/em>
\n7. Su-Yong Lee, Yong Sup Ihn, and Zaeill Kim<\/strong>
\nOptimal entangled coherent states in lossy quantum-enhanced metrology<\/em>
\n8. Thomas J. Elliott, Chengran Yang, Felix C. Binder, Andrew J. P. Garner, Jayne Thompson, and Mile Gu<\/strong>
\nExtreme dimensional compression with quantum modelling<\/em>
\n9. A. Mandilara, C. Valagiannopoulos, and V. M. Akulin<\/strong>
\nClassical and Quantum Dispersion-Free Coherent Propagation by Tailoring Multi-Modal Coupling<\/em>
\n10. Sang Min Lee, Seung-Woo Lee, Hyunseok Jeong, and Hee Su Park<\/strong>
\nQuantum Teleportation between Multiple Senders and Receivers<\/em>
\n11. H. Y. Yuan, S. S. Zheng, Zbigniew Ficek, Q. Y. He, and M. H. Yung<\/strong>
\nEnhancement of magnon-magnon entanglement inside a cavity<\/em>
\n12. Ximing Wang, Yuechi Ma, Min-Hsiu Hsieh, and Man-Hong Yung<\/strong>
\nQuantum Speedup in Adaptive Boosting of Binary Classification<\/em>
\n13. Le Bin Ho and Yasushi Kondo<\/strong>
\nTradeoffs in multiphase estimation with postselection measurements<\/em>
\n14. G. P. Temporao and G. C. Amaral<\/strong>
\nCharacterization of depolarizing channels using two-photon interference<\/em>
\n15. Youngrong Lim, Soojoon Lee, Jaewan Kim, and Kabgyun Jeong<\/strong>
\nUpper bounds on the quantum capacity for non-Gaussian channels<\/em>
\n16. Ashutosh Rai, Cristhiano Duarte, Samurai Brito, and Rafael Chaves<\/strong>
\nGeometry of the quantum set on no-signaling faces<\/em>
\n17. Yonatan Gazit, Hui Khoon Ng, and Jun Suzuki<\/strong>
\nOptimal estimation of noise asymmetry in the qubit Pauli channel via the theory of optimal design of experiments<\/em>
\n18. Dan Li, Ying Liu, Juan Xu, Jia-Bin Yuan, and Yu-Guang Yang<\/strong>
\nSzegedy Quantum Walks with Memory on Regular Graphs<\/em>
\n19. Yu Chen and Haidong Yuan<\/strong>
\nZero-error quantum hypothesis testing in finite time with quantum error correction<\/em>
\n20. Waldemar Klobus, Adam Burchardt, Adrian Kolodziejski, Mahasweta Pandit, Tamas Vertesi, Karol Zyczkowski, and Wieslaw Laskowski<\/strong>
\nOn k-uniform mixed states<\/em>
\n21. Niklas Johansson and Jan-Ake Larsson<\/strong>
\nEfficient Classical Simulation of Some Quantum Algorithms<\/em>
\n22. Giulio Chiribella and Hler Kristjansson<\/strong>
\nQuantum Shannon theory with superpositions of trajectories<\/em>
\n23. Yuling Tian, Tianfeng Feng, Maolin Luo, Shenggen Zheng, and Xiaoqi Zhou<\/strong>
\nExperimental Demonstration of State Complexity Advantage in Quantum Finite Automaton<\/em>
\n24. Spiros Kechrimparis, Tanmay Singal, Chahan M. Kropf, and Joonwoo Bae<\/strong>
\nPreserving Measurements for Optimal State Discrimination over Quantum Channels<\/em>
\n25. D. Ahn, Y. S. Teo, H. Jeong, F. Bouchard, F. Hufnagel, E. Karimi, D. Koutny, J. Rehacek, Z. Hradil, G. Leuchs, and L. L. Sanchez-Soto<\/strong>
\nAdaptive Compressive Tomography with No a priori Information<\/em>
\n26. Aleksandrs Belovs, Arturo Castellanos, and Francois Le Gall<\/strong>
\nQuantum Communication Complexity of Distribution Testing<\/em>
\n27. Tanjung Krisnanda, Guo Yao Tham, Mauro Paternostro, and Tomasz Paterek<\/strong>
\nObservable quantum entanglement due to gravity<\/em>
\n28. Yohichi Suzuki, Shumpei Uno, Rudy Raymond, Tomoki Tanaka, Tamiya Onodera, and Naoki Yamamoto<\/strong>
\nAmplitude Estimation with Maximum Likelihood Estimation<\/em>
\n29. Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, and Dacheng Tao<\/strong>
\nVariational Quantum Classifier for Nonlinear Data<\/em>
\n30. Yuxuan Du, Min-Hsiu Hsieh, Tongliang Liu, and Dacheng Tao<\/strong>
\nThe Expressive Power of Parameterized Quantum Circuits<\/em>
\n31. Seung-Woo Lee and Jaewan Kim<\/strong>
\nSingle photon characteristic of superposed weak coherent states and its application to quantum key distribution<\/em>
\n32. Jaehak Lee, Jiyong Park, and Hyunchul Nha<\/strong>
\nNo-cloning bound and secure teleportation beyond Gaussian states<\/em>
\n33. Zhi-Chao Zhang and Xiangdong Zhang<\/strong>
\nStrong quantum nonlocality in multipartite quantum systems<\/em>
\n34. Jiyong Park, Jaehak Lee, and Hyunchul Nha<\/strong>
\nEntropic nonclassicality and quantum non-Gaussianity tests using homodyne detection with a beam splitter<\/em>
\n35. Leonardo Guerini, Marco Tulio Quintino, and Leandro Aolita<\/strong>
\nDistributed sampling, quantum communication witnesses, and measurement incompatibility<\/em>
\n36. Filip Wudarski, Andreas Woitzik, Panagiotis Barkoutsos, Ivano Tavernelli, and Andreas Buchletiner<\/strong>
\nVariational Quantum Eigensolver for Fermi-Hubbard models<\/em>
\n37. Qian-Ping Mao, Le Wang, and Sheng-Mei Zhao<\/strong>
\nDecoy-state round-robin differential-phase-shift quantum key distribution with source errors<\/em>
\n38. Gang Chen, Le Wang, Shengmei Zhao, and Jozef Gruska<\/strong>
\nMultiple Pulses Phase-matching Quantum Key Distribution<\/em>
\n39. Joong-Sung Lee, Jeongho Bang, Sunghyuk Hong, Changhyoup Lee, Kanghee Seol, Jinhyoung Lee, and Kwang-Geol Lee<\/strong>
\nQuantum Learning Speed-up with Classical Examples<\/em>
\n40. Mun Dae Kim and Jaewan Kim<\/strong>
\nCoupling qubits in circuit-QED cavities connected by a bridge qubit<\/em>
\n41. Hayata Yamasaki and Mio Murao<\/strong>
\nSpread quantum information in one-shot quantum state merging<\/em>
\n42. Mirjam Weilenmann and Roger Colbeck<\/strong>
\nAnalysing causal structures in generalised probabilistic theories<\/em>
\n43. Madhav Krishnan Vijayan, Eric Chitambar, and Min-Hsiu Hsieh<\/strong>
\nOne-shot concentration of resource in a general resource theory<\/em>
\n44. Edgar A. Aguilar, Mate Farkas, Matej Pivoluska, Martin Plesch, Robert Fickler, and Mehul Malik<\/strong>
\nSimple Testable Random Number Generator<\/em>
\n45. Arijit Dutta, Jeongwoo Jae, Jaewan Kim, Marek Zukowski, and Jinhyoung Lee<\/strong>
\nBell theorem unboundedly resilient against noises for qudits<\/em>
\n46. Ho-Joon Kim and Sang Wook Kim<\/strong>
\nQuantum Coherence Concentration Is Irrecoverable.<\/em>
\n47. Yanbao Zhang, Hsin-Pin Lo, Takuya Ikuta, Toshimori Honjo, Hiroki Takesue, and William J. Munro<\/strong>
\nA simple low-latency real-time certifiable quantum random number generator<\/em>
\n48. Kyunghyun Baek and Hyunchul Nha<\/strong>
\nNon-Gaussianity and entropy-bounded uncertainty relations: Application to detection of non-Gaussian entangled states<\/em>
\n49. Dan-Dan Li, Xiao-Hong Huang, Wei Huang, and Fei Gao<\/strong>
\nDevice-Independent Quantum Private Query Protocol without the Assumption of Perfect Detectors<\/em>
\n50. Junghee Ryu, Jinhyoung Lee, Pawel Kurzynski, and Dagomir Kaszlikowski<\/strong>
\nNo-signaling Monogamies by geometric properties<\/em>
\n51. H. Chau Nguyen, Huy-Viet Nguyen, and Otfried Guhne<\/strong>
\nGeometrical characterisation of Einstein-Podolsky-Rosen steering<\/em>
\n52. Xueyuan Hu<\/strong>
\nCoherence non-activating measurement<\/em>
\n53. Varun Narasimhachar, Syed Assad, Felix C. Binder, Jayne Thompson, Benjamin Yadin, and Mile Gu<\/strong>
\nThermodynamic resource theory for continuous-variable quantum systems<\/em>
\n54. Richard Bornat, Guillaume Poly, Jaap Boender, Florian Kammueller, and Rajagopal Nagarajan<\/strong>
\nDescribing and Simulating Quantum Protocols<\/em>
\n55. Parveen Kumar, Suman Kundu, Madhavi Chand, R. Vijay, and Apoorva Patel<\/strong>
\nUnderstanding Dynamics of Weak Quantum Measurement<\/em>
\n56. Chen-Fu Chiang and Aaron Gregory<\/strong>
\nContinuous Time Quanutm Walk Search on Dimensionality Reduced Complete Bipartite Graphs with k Edges Removed<\/em>
\n57. Matej Pivoluska, Paul Appel, Giuseppe Vitagliano, Marcus Huber, David W. Lyons, Alexander J. Heilman, Ezekiel W. Wertz, and Mariami Gachechiladze<\/strong>
\nTensor-Edge Hypergraph States<\/em>
\n58. David Trillo, Benjamin Dive, and Miguel Navascues<\/strong>
\nCentral polynomials to manipulate time<\/em>
\n59. Gerhard W. Dueck, Alexandre A. A. de Almeida, and Alexandre Cesar Rodrigues da Silva<\/strong>
\nEfficient Mapping of NCV Circuit to IBM’s QX Architectures<\/em>
\n60. Kohtaro Kato and Pieter Naaijkens<\/strong>
\nAn entropic invariant for 2D gapped quantum phases<\/em>
\n61. Kohei Miyamoto, Masakazu Iwamura, and Koichi Kise<\/strong>
\nA Quantum Algorithm for Finding k-Minima<\/em>
\n62. Seungbeom Chin and Joonsuk Huh<\/strong>
\nEntanglement of Identical Particles from Three Aspects: the First Quantization, Exterior Products, and GNS representation<\/em>
\n63. Ranjith Nair and Mile Gu<\/strong>
\nGeneral framework for metrology of phase-covariant optical channels<\/em>
\n64. Shota Nagayama, Takahiko Satoh, and Kenji Kubo<\/strong>
\nFundamental scheme to describe scenarios in extensive-form games by Quantum Annealing<\/em>
\n65. Keren Li, Shijie Wei, Feihao Zhang, Pan Gao, Zengrong Zhou, Tao Xin, Xiaoting Wang, Patrick Rebentrost, and Guilu Long<\/strong>
\nOptimizing a Polynomial Function on a Quantum Processor<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"