Nonlinear feedforward enabling quantum computation by Atsushi Sakaguchi, Shunya Konno, Fumiya Hanamura, Warit Asavanant, Kan Takase, Hisashi Ogawa, Petr Marek, Radim Filip, Jun-ichi Yoshikawa, Elanor Huntington, Hidehiro Yonezawa, Akira Furusawa

“…Abstract Measurement-based quantum computation with optical time-domain multiplexing is a promising method to realize a quantum computer from the viewpoint of scalability. …”
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Adiabatic graph-state quantum computation by B Antonio, D Markham, J Anders

Subjects: “…measurement-based quantum computation…”
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Variational Quantum Computation of Excited States by Oscar Higgott, Daochen Wang, Stephen Brierley

“…Our method is robust to control errors, is compatible with error-mitigation strategies and can be implemented on near-term quantum computers.…”
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Non-adiabatic holonomic quantum computation by Erik Sjöqvist, D M Tong, L Mauritz Andersson, Björn Hessmo, Markus Johansson, Kuldip Singh

“…We develop a non-adiabatic generalization of holonomic quantum computation in which high-speed universal quantum gates can be realized using non-Abelian geometric phases. …”
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3-Fermion Topological Quantum Computation by Sam Roberts, Dominic J. Williamson

“…We present a scheme for universal topological quantum computation based on Clifford-complete braiding and fusion of symmetry defects in the 3-fermion anyon theory, supplemented with magic state injection. …”
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Quantum computation of discrete logarithms in semigroups by Childs Andrew M., Ivanyos Gábor

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The resource theory of stabilizer quantum computation by Victor Veitch, S A Hamed Mousavian, Daniel Gottesman, Joseph Emerson

“…Recent results on the non-universality of fault-tolerant gate sets underline the critical role of resource states, such as magic states, to power scalable, universal quantum computation. Here we develop a resource theory, analogous to the theory of entanglement, that is relevant for fault-tolerant stabilizer computation. …”
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Quantum computation of molecular response properties by Xiaoxia Cai, Wei-Hai Fang, Heng Fan, Zhendong Li

“…In this work, we propose an algorithm for computing linear and nonlinear molecular response properties on quantum computers by first reformulating the target property into a symmetric expression more suitable for quantum computation via introducing a set of auxiliary quantum states, and then determining these auxiliary states via solving the corresponding linear systems of equations on quantum computers. …”
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Projected cooling algorithm for quantum computation by Dean Lee, Joey Bonitati, Gabriel Given, Caleb Hicks, Ning Li, Bing-Nan Lu, Abudit Rai, Avik Sarkar, Jacob Watkins

“…Towards this end, we introduce the projected cooling algorithm for quantum computation. The projected cooling algorithm is able to construct the localized ground state of any Hamiltonian with a translationally-invariant kinetic energy and interactions that vanish at large distances. …”
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Power of one qumode for quantum computation by Liu, Nana, Thompson, Jayne, Weedbrook, Christian, Lloyd, Seth, Vedral, Vlatko, Gu, Mile, Modi, Kavan

“…An important class of problems where quantum computers possess an advantage is phase estimation, which includes applications like factoring. …”
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Resonant transition-based quantum computation by Chiang, Chen-Fu, Hsieh, Chang Yu

“…We thoroughly analyze the intimate connections between the RT-based quantum computation and the well-established adiabatic quantum computation (AQC). …”
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Practical fault-tolerant quantum computation by Yoder, Theodore J

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Horizons of Artificial Intelligence in Quantum Computation by Kiani, Bobak T.

“…The potential emergence of practical quantum computers has guided research into their potential applications, particularly in the context of artificial intelligence. …”
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Quantum computation beyond the circuit model by Jordan, Stephen Paul

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Advice coins for classical and quantum computation by Aaronson, Scott, Drucker, Andrew Donald

“…Despite this finding, we are able to bound the power of advice coins for space-bounded classical and quantum computation. We define the classes BPPSPACE/coin and BQPSPACE/coin, of languages decidable by classical and quantum polynomial-space machines with advice coins. …”
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Fermionic measurement-based quantum computation by Chiu, Yu-Ju, Chen, Xie, Chuang, Isaac L.

“…One particularly interesting model to study, in view of recent progress in manipulating ultracold fermion gases, is the fermionic version of measurement-based quantum computation (MBQC), which implements full quantum computation with only single-site measurements on a proper fermionic many-body resource state. …”
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Power of one qumode for quantum computation by Liu, Nana, Thompson, Jayne, Weedbrook, Christian, Lloyd, Seth, Vedral, Vlatko, Gu, Mile, Modi, Kavan

Subjects: “…Quantum Computation…”
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Quantum computation and Shor's factoring algorithm by Ekert, A, Jozsa, R

“…The algorithm illustrates the potential power of quantum computation, as there is no known efficient classical method for solving this problem. …”

Geometric quantum computation with Josephson qubits by Falci, G, Fazio, R, Palma, G, Siewert, J, Vedral, V

“…The quest for large scale integrability and flexibility has stimulated an increasing interest in designing quantum computing devices. A proposal based on small-capacitance Josephson junctions in the charge regime in which quantum gates are implemented by means of adiabatic geometric phases was discussed. …”

Resonant transfer of excitons and quantum computation by Lovett, B, Reina, J, Nazir, A, Kothari, B, Briggs, G