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Related papers: Coherence transformations in single qubit systems

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Strictly incoherent operations (SIO) proposed in [Phys. Rev. Lett. 116, 120404 (2016)] are promising to be a good candidate of free operations in the resource theory of quantum coherence, setting against the central role of local operations…

Quantum Physics · Physics 2021-02-24 Shuanping Du , Zhaofang Bai

We compute analytically the maximal rates of distillation of quantum coherence under strictly incoherent operations (SIO) and physically incoherent operations (PIO), showing that they coincide for all states, and providing a complete…

Quantum Physics · Physics 2019-04-23 Ludovico Lami , Bartosz Regula , Gerardo Adesso

We compute on all quantum states several measures that characterise asymptotic quantum coherence manipulation under restricted classes of operations. We focus on the distillable coherence, i.e. the maximum rate of production of approximate…

Quantum Physics · Physics 2020-03-23 Ludovico Lami

We investigate the coherence of quantum channels using the Choi-Jamio\l{}kowski isomorphism. The relation between the coherence and the purity of the channel respects a duality relation. It characterizes the allowed values of coherence when…

Quantum Physics · Physics 2018-09-14 Chandan Datta , Sk Sazim , Arun K. Pati , Pankaj Agrawal

We characterize the distillation of quantum coherence in the one-shot setting, that is, the conversion of general quantum states into maximally coherent states under different classes of quantum operations. We show that the maximally…

Quantum Physics · Physics 2018-07-05 Bartosz Regula , Kun Fang , Xin Wang , Gerardo Adesso

Cohering power and de-cohering power have recently been proposed to quantify the ability of a quantum operation to produce and erase coherence respectively. In this paper, we investigate the properties of cohering power and de-cohering…

Quantum Physics · Physics 2017-10-17 Kaifeng Bu , Chunhe Xiong

We show that incoherent operations (IOs) can achieve the state transformations that are forbidden under dephasing-covariant incoherent operations (DIOs), thereby resolving the open problem posed by Chitambar and Gour [Phys. Rev. Lett. 117,…

Quantum Physics · Physics 2026-03-11 C. L. Liu

We experimentally investigate problems of one-shot coherence distillation [Regula, Fang, Wang, and Adesso, Phys. Rev. Lett. 121, 010401 (2018)]. Based on a set of optical devices, we design a type of strictly incoherent operation (SIO),…

We characterize the operational capabilities of quantum channels which can neither create nor detect quantum coherence vis-\`a-vis efficiently manipulating coherence as a resource. We study the class of dephasing-covariant operations (DIO),…

Quantum Physics · Physics 2020-02-03 Bartosz Regula , Varun Narasimhachar , Francesco Buscemi , Mile Gu

The ability to distill quantum coherence is pivotal for optimizing the performance of quantum technologies; however, such a task cannot always be accomplished with certainty. Here we develop a general framework of probabilistic distillation…

Quantum Physics · Physics 2018-08-22 Kun Fang , Xin Wang , Ludovico Lami , Bartosz Regula , Gerardo Adesso

The resource framework of quantum coherence was introduced by Baumgratz, Cramer and Plenio [PRL 113, 140401 (2014)] and further developed by Winter and Yang [PRL 116, 120404 (2016)]. We consider the one-shot problem of distilling pure…

Quantum Physics · Physics 2020-04-09 Qi Zhao , Yunchao Liu , Xiao Yuan , Eric Chitambar , Andreas Winter

Coherence distillation is a basic information-theoretic task in the resource theory of coherence. In this paper, we present the necessary and sufficient conditions under which a mixed state can be distilled into a pure coherent state via…

Quantum Physics · Physics 2022-03-29 C. L. Liu , D. L. Zhou , C. P. Sun

Quantum coherence is a fundamental property that can emerge within any quantum system. Incoherent operations, defined in terms of the Kraus decomposition, take an important role in state transformation. The maximum number of incoherent…

Quantum Physics · Physics 2020-05-05 Jiahuan Qiao , Lingyun Sun , Jing Wang , Ming Li , Shuqian Shen , Lei Li , Shaoming Fei

Considerable work has recently been directed toward developing resource theories of quantum coherence. In most approaches, a state is said to possess quantum coherence if it is not diagonal in some specified basis. In this letter we…

Quantum Physics · Physics 2016-12-28 Eric Chitambar , Gilad Gour

As an important quantum resource, quantum coherence play key role in quantum information processing. It is often concerned with manipulation of families of quantum states rather than individual states in isolation. Given two pairs of…

Quantum Physics · Physics 2020-12-01 Zhaofang Bai , Shuanping Du

Quantum coherence is an essential feature of quantum mechanics which is responsible for the departure between classical and quantum world. The recently established resource theory of quantum coherence studies possible quantum technological…

Quantum Physics · Physics 2017-10-06 Alexander Streltsov , Swapan Rana , Paul Boes , Jens Eisert

We study the limitations on coherence evolutions under the constraints of thermodynamic laws, and focus on the optimal thermal operations (TO) reaching the bounds. For qubit case, we find a thermal operation involving only a single-mode…

Quantum Physics · Physics 2019-01-16 Xueyuan Hu

Recently, there has been a renewed interest in the quantification of coherence or other coherence-like concepts within the framework of quantum resource theory. However, rigorously defined or not, the notion of coherence or decoherence has…

Quantum Physics · Physics 2017-11-20 Yao Yao , G. H. Dong , Xing Xiao , Mo Li , C. P. Sun

In 2016, A. Winter et al.(Physical Review Letters 116 (12) (2016) 120404) provided an operational meaning to relative entropy of coherence and coherence of formation by introducing coherence distillation and dilation protocol in asymptotic…

Quantum Physics · Physics 2025-08-19 Priyabrata Char , Dipayan Chakraborty , Amit Bhar , Indrani Chattopadhyay , Debasis Sarkar

Commercially-relevant quantum computers will require large numbers of high-performing qubits that can be manufactured, integrated, and controlled at scale. Silicon exchange-only (EO) qubits are a strong candidate modality due to their…

Quantum Physics · Physics 2026-05-05 Members of the HRL Quantum Team , Collaborators , : , Michael Abraham , Edwin Acuna , Tower S. Adams , Moonmoon Akmal , Matthew R. Alfaro , I. Alvarado , Jacob Amontree , Carter Andrews , Reed W. Andrews , Michael Antcliffe , Andre R. Aséncio , Ryan M. Avila Batres , Cynthia D. Baringer , David W. Barnes , Katherine M. Beech , Russell G. Blakey , Zachery T. Bloom , Aaron J. Bluestone , Jacob Z. Blumoff , Matthew G. Borselli , Koel A. Bose , Brydon Boyd , Jacob T. Boyer , Teresa L. Brecht , Christopher C. Brough , Rex A. Brown , Steven L. Brown , Tyler A. Cain , John B. Carpenter , Stephen Carr , Faustin W. Carter , Mitchell Casanova , Jacob L. Chambers , Matthew D. Chambers , Khamsorn L. Chanthavong , James M. Chappell , Rhian Chavez , Kevin C. Chen , Peter S. Chen , Maxwell D. Choi , Krishna Choudhary , Matthew N. H. Chow , Justin E. Christensen , Aaron M. Chronister , Andrew M. Clapper , Abigail A. Coker , Michael D. Cornelius , Albert E. Cosand , Ian T. Counts , Edward T. Croke , Gregory M. Crosswhite , Adam Dally , Erik S. Daniel , Tuan A. Dao , Dominic Daprano , Tiffany Davis , Neha Deshpande , Rachel S. Dey , D. Scott Diamond , Claire E. Dickerson , J. P. Dodson , James B. Dragan , Marc Dvorak , Lisa F. Edge , Charles R. Elliott , Kenneth R. Elliott , Kevin Eng , Jacob Fast , Colin P. Feeney , David J. Fialkow , Dylan H. Finestone , Micha N. Fireman , Bryan H. Fong , Trevor M. Fowler , Sean Frazier , Kiera L. Fuller , Christina A. C. Garcia , Kacy L. Garstka , Kara C. Garvey , Zachary A. Geiger , Galen R. Gledhill , Caleigh M. Goodwin-Schoen , Joseph L. Goralka , Bradley W. Greene , Hrayr K. Gurgenian , Sieu D. Ha , Wonill Ha , Nathanial R. Hapeman , Brooke M. Hardesty , Jim W. Harrington , Patrick M. Harrington , Thomas R. B. Harris , Ben M. Harrison , Anthony T. Hatke , Robert R. Hayes , Kevin He , Raul Hernandez Garcia , Ryan M. Hickey , Jocelyn Hicks-Garner , Alex Hirman , Donald A. Hitko , David Ho , Holland Y. Ho , Vinh S. Ho , nathan holman , Adam Holmes , Nerys Huffman , Daniel R. Hulbert , Eric B. Isaacs , Clayton A. C. Jackson , Logan Jaeger , Ian Jenkins , Cameron Jennings , Paul C. Jerger , B. Johnson , Aaron M. Jones , Michael P. Jura , Adour V. Kabakian , Raj M. Katti , Tyler Keating , Joseph Kerckhoff , Joseph D. Kern , Isaac Khalaf , Aditya Kher , Jake J. Kim , Erich W. Kinder , Andrey A. Kiselev , William F. Koehl , Patrick W. Krantz , Thaddeus D. Ladd , Pierce G. Laing , Sanaaya Lakdawala , Nathan J. Lang , Robert Lanza , Elias Lawson-Fox , Dustin Le , Kangmu Lee , Nathan R. A. Lee , Jaime Lerma , Mark P. Levendorf , Alwina R. Liu , Henry Lizarraga , Aurelio Lopez , Hoa C. Ly , Torrey T. Lyons , Theodore K. Macioce , Matthew M. Mackey , John K. Maeda , Ryan M. Martin , Daniel S. Matic , Justine W. Matten , Gavin C. Mazur , Max S. McCready , Olivia Means , Kevin E. Millner , Ivan Milosavljevic , Matthew Morris , Susan L. Morton , Samuel Mumford , Bryce D. Murley , Robert G. Nagele , Taro A. Naoi , Cameron R. Nelson , Georgia A. Newman , David B. Nguyen , Tina Niknejad , Rebecca N. Nishide , Liam C. O'Brien , Colin B. E. O'Keefe , Riley P. O'Neil , Andrew E. Oriani , Anthony F. Ortiz , John J. Ottusch , Andrew Pan , Pamela R. Patterson , Uttam Paudel , Julius C. Perez , Christi A. Peterson , Vu T. Phan , Nickolas H. Pilgram , Clifford E. Plesha , Winston Pouse , Eric M. Prophet , Daniel R. Queen , Nicholas Quirk , Kate Raach , Matthew T. Rakher , Matthew D. Reed , Brandon D. Reynolds , Luke D. Robertson , Zechariah Rogers , Yakov Royter , Matthew J. Ruiz , Golam Sabbir , Roshan Sajjad , Christopher D. Sanborn , Rachel H. Sarmiento , Christian J. Schnaible , Cole Scott , Nicholas M. Sebastiani , Eric M. Segall , Alen Senanian , Adalberto Sicairos , Shariq Siddiqui , Kartik Singh , Aaron Smith , Daniel E. Smith , Robert S. Smith , Sarah F. Sontag , Emilio A. Sovero , Kevin C. Staley , Andrea Su , June Suh , Bo Sun , Danny Sun , Christopher M. Swank , Noah Swimmer , Mariano J. Taboada , Bryan J. Thomas , Yessica Torres , Jeremy W. Touve , Alan Tran , Ivan Tran , Chantang Tsen , Skylar Turner , Miguel Valencia , Irma Valles , James R. van Meter , Nicholas D. VanRensselaer , Franklin Vartanian , Daniel Volya , Zachary J. Vrba , Phuong Hong Vu , Annette L. Wagner , John Wallner , Michael P. Walsh , Shuoqin Wang , Tong Wang , Daniel R. Ward , Aaron J. Weinstein , Terry B. Welch , Thomas V. Westrick , Evan T. White , Randall M. White , Samuel J. Whiteley , Gananath Wijeratne , Parker Williams , Jack T. Wilson , Courtney P. Wilt , Deborah E. Winklea , Onnik Yaglioglu , Daniel Yap , Clifford S. YoungSciortino , Daniel Zehnder , Andrew Ziegler
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