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J16.00001: Toward integration of Kerr-nonlinear parametric oscillators for adiabatic quantum computation with Lechner-Hauke-Zoller scheme
Taro Kanao, Hayato Goto
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J16.00002: Long range coupling through a chain of RF-SQUIDs for superconducting flux qubit quantum annealers
Antonio Javier Martinez, Daniel M Tennant, Xi Dai, Denis Melanson, Ali Yurtalan, Salil Bedkihal, Edward Tang, Alexander Melville, Bethany M Niedzielski, Rabindra Das, David K Kim, Jonilyn Yoder, Steven Weber, Andrew James Kerman, Sergey Novikov, Steven M Disseler, James I Basham, Jeffrey Grover, Evgeny Mozgunov, Daniel A Lidar, Adrian Lupascu
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J16.00003: Finding optimized anneal paths in capacitively shunted flux qubits
Mostafa Khezri, Jeffery Grover, Daniel A Lidar
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J16.00004: Quantum annealing with spin lock technique
Hideaki Hakoshima, Yuichiro Matsuzaki, Yuya Seki, Shiro Kawabata
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J16.00005: Assessing the potential of Rydberg atoms for adiabatic quantum computing of an NP-hard problem
Bertrand Marchand, Fabrice Serret, Thomas Ayral
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J16.00006: A theoretical analysis of the power of pausing
Huo Chen, Daniel A Lidar
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J16.00007: Quantum computation using Kerr-nonlinear parametric oscillators
Invited Speaker:
Hayato Goto
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J16.00008: Effectiveness of quantum annealing pause and partial gauges on embedded
degree-bounded minimum spanning tree problems
Shon Grabbe, Zoe Gonzalez Izquierdo, Stuart Hadfield, Jeffrey Marshall, Zhihui Wang, Eleanor Rieffel, Nicholas Cramer
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J16.00009: Quantum annealing with boundary canceling schedules
Humberto Munoz-Bauza, Lorenzo Campos Venuti, Daniel A Lidar
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J16.00010: The Perils of Embedding for Sampling Problems
Jeffrey Marshall, Andrea Di Gioacchino, Eleanor Rieffel
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J16.00011: Reproducing the Performance Enhancement of Adiabatic Reverse Annealing
Matthew Kowalsky, Tameem Albash
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J16.00012: Reverse quantum annealing with dissipation
Gianluca Passarelli, Ka Wa Yip, Procolo Lucignano, Daniel A Lidar, Hidetoshi Nishimori
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J16.00013: Quantum annealing in a degenerate two-level system
Shohei Watabe, Yuya Seki, Shiro Kawabata
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