About the Editors
Sven Rogge, PhD
Professor of Physics
University of New South Wales
Sven Rogge’s research interest is in experimental condensed matter physics, in particular quantum computation in silicon. He leads a team of enthusiastic researchers at the Australian Research Council Centre for Quantum Computation and Communication Technology hosted at the University of New South Wales, Australia. Their focus is on gaining atomistic insight into the interactions of quantum objects, like atoms and qubits, with their environment. This allows them to manipulate quantum information and minimise decoherence. Before joining UNSW in 2011 he was at the Kavli Institute for Quantum Nano Science at Delft University and Stanford University.
Michael Bremner, PhD
Professor of Software Engineering
University of Technology, Sydney
Professor Michael Bremner leads a team at UTS researching theoretical aspects quantum computation; specializing in the capabilities of quantum software in near-term devices, and the design of quantum computers. He is particularly known for his work in revealing the potential computational supremacy of near-term quantum computing devices and his research program is focused on identifying quantum computing applications that utilize the power of quantum computers in the easiest, and cheapest way possible. This involves theoretically identifying applications and experimental benchmarks, designing architectures capable of achieving them, and working with experimental teams to bring it to reality.
Bo joined Springer Nature as a scientific editor at Nature Communications in 2017, where he handled manuscripts on solar cells and semiconductor photo-physics. He joined the npj series as a Managing Editor in 2020, and was promoted to Executive Editor of the Physical and Applied Science npjs in October 2021. Prior to his editorial career, Bo graduated from Zhejiang University, China, and obtained a PhD in Physics at National University of Singapore. He also worked as a postdoc at the Graphene Research Center in Singapore and University of Washington, US. He is based in Shanghai.
Almut Beige, PhD
Associate Prof., School of Physics and Astronomy
University of Leeds
Leeds, United Kingdom
Almut Beige is the Head of the Theoretical Physics Group in the School of Physics and Astronomy at the University of Leeds, United Kingdom, where she moved in 2005 after working at Imperial College London, the University of Cambridge and the Max-Planck-Institute for Quantum Optics in Garching, Germany. Almut is most known for her work on open quantum systems with spontaneous photon emission. While being interested in the foundations of quantum physics, she also helped to establish measurements and dissipation as a tool for the efficient and robust manipulation of quantum information with a wide range of applications. Almut received her PhD from the University of Göttingen, Germany, in 1998.
Dominic Berry, PhD
Associate Prof., Department of Physics and Astronomy
Macquarie University Research Centre in Quantum Science and Technology
Dominic Berry has performed some of the foundational work in quantum algorithms for quantum simulation, pioneering the Trotter-Suzuki methods for quantum simulation in 2007, as well as introducing new approaches with exponential precision in 2014. He has also developed a range of adaptive techniques for phase estimation with highly nonclassical states, which have applications in precision metrology as well as quantum algorithms. Dominic Berry received his PhD at The University of Queensland (UQ) in 2002 and worked at Macquarie, UQ, and the Institute for Quantum Computing in Waterloo before returning to Macquarie in 2011 as a Future Fellow.
Johannes Borregaard, PhD
Prof., Department of Quantum Nanoscience
QuTech and Kavli Institute of Nanoscience, Delft University of Technology
Johannes’ focus early on has been to consider quantum technology in realistic settings subject to experimental imperfections. In his research, he tries to bridge the gap between quantum software and hardware working in the intersection of mathematics and physics. A substantial part of Johannes’ research evolves around quantum networks in a broad sense. This includes protocols for long-distance quantum communication, quantum sensor networks for enhanced metrology, and new cryptographic network applications.
Sarah Croke, PhD
Senior Lecturer, School of Physics and Astronomy
University of Glasgow
Scotland, United Kingdom
Sarah's research is in theoretical aspects of quantum information and computation, specialising in quantum measurement theory. She is known in particular for her work on optimal quantum measurements and on the difference in power between joint measurement and local measurement. In addition she has broader research interests spanning quantum information, quantum foundations, and quantum optics.
Yvonne Gao, PhD
Centre for Quantum Technologies and Department of Physics
National University of Singapore
Yvonne leads a new experimental effort focusing on building robust quantum devices using superconducting microwave circuits. Using these devices as versatile testbeds, Yvonne and her team aim to develop novel techniques for quantum information processing as well as to explore interesting effects in quantum physics.
Sam Gorman, PhD
Centre for Quantum Computation and Comm Technology
University of New South Wales
As a postdoctoral researcher at UNSW, Sam Gorman's research focuses on phosphorus-doped silicon devices fabricated using scanning tunneling microscopy for quantum computing applications. He has performed experimental and theoretical work on the controllable coupling of electrons bound to multi-donor quantum dots, singlet-triplet state control and readout in double quantum dots, and state preparation and measurement of electron spin qubits at cryogenic temperatures.
Hanhee Paik, PhD
Research Staff Member, IBM Quantum
Dr. Hanhee Paik is a Research Staff Member at IBM Quantum, IBM T J Watson Research Center. Through her research career, she has been focusing on understanding the coherence mechanisms of superconducting qubits and developing superconducting multi-qubit architectures. Dr. Paik pioneered the novel design of a superconducting qubit that helped the industry to push the boundary of superconducting qubit performance and her research on the quantum processor design has greatly impacted the quantum computing community. Today's IBM Quantum systems coherence times benefit from Dr. Paik's work, and average an industry-best 100 microseconds. She played a pivotal role developing the 16-qubit IBM Q Experience device (Rueschlikon and Melbourne), and she is currently working on developing the next generation of quantum computing processors.
Michelle Simmons, PhD
Director, Centre for Quantum Computation & Comm Tech
University of New South Wales
Michelle Simmons oversees an interdisciplinary research group in both optical and silicon based quantum computation and its integration with a secure communications network. Their work focusses on developing both optical and silicon based quantum computer prototypes and repeater technologies for quantum communications. She and her team have developed a radical new technology for realizing atomically precise devices in silicon and germanium developing the world's first single atom transistor and the thinnest conducting doped wires in silicon. They are currently working towards developing a scalable donor based silicon quantum computer.
Philip Walther, PhD
Prof., Faculty of Physics, Quantum Optics, Quantum Nanophysics & Quantum Information Group
University of Vienna
Prof Walther's research areas are quantum computing, quantum cloud computing, quantum simulation experiments, the investigation of quantum correlations as resource, and multi-photon generation and manipulation and light-matter interactions.
Nathan Wiebe, PhD
Prof., Department of Computer Science
Centre for Quantum Information and Quantum Control
University of Toronto
Prof Wiebe's interests span quantum algorithms, quantum simulation, quantum machine learning, quantum metrology and applications of machine learning to quantum device characterization. His work has provided the first quantum algorithms for deep learning, least squares fitting, quantum simulations using linear-combinations of unitaries, quantum Hamiltonian learning, near-optimal simulation of time-dependent physical systems, efficient Bayesian phase estimation and also has pioneered the use of particle filters for characterizing quantum devices as well as many other contributions ranging from the foundations of thermodynamics to adiabatic quantum computing and quantum chemistry simulation.
Feihu Xu, PhD
Prof., School of Physical Science
University of Science and Technology of China
Feihu’s research interest is in the theoretical and experimental aspects of quantum information processing, focusing on quantum communication, quantum network and single-photon imaging. Feihu was among the first of the world to hack successfully a quantum key distribution system and to demonstrate the novel measurement-device-independent quantum key distribution protocol. He is also the leader pioneering in the research directions of experimental quantum fingerprinting and all-photonic quantum repeater, secure time-frequency transfer, distributed quantum sensing and single-photon imaging. Before joining USTC, he received an M.A.Sc and Ph.D from University of Toronto, and held a Postdoctoral position at MIT.
Editorial Board Members
David Awschalom, PhD, University of Chicago, Illinois, USA
Michael Biercuk, PhD, University of Sydney, Sydney, Australia
Paola Cappellaro, PhD, Massachusetts Institute of Technology, Massachusetts, USA
Yu-Ao Chen, PhD, University of Science and Technology, Hefei and Shanghai, China
Andrew Childs, PhD, University of Maryland, Maryland, USA
Simon Devitt, PhD, University of Technology Sydney, Sydney, Australia
Klaus Ensslin, PhD, ETH Zurich, Zurich, Switzerland
Mark Eriksson, PhD, University of Wisconsin-Madison, Wisconsin, USA
Alessandro Fedrizzi, PhD, Heriot-Watt University, Edinburgh, UK
Austin Fowler, PhD, Google Inc., California, USA
Jay Gambetta, PhD, Thomas J. Watson Research Center IBM, New York, USA
Lloyd Hollenberg, PhD, University of Melbourne, Melbourne, Australia
Atac Imamoglu, PhD, ETH Zurich, Zurich, Switzerland
Elham Kashefi, PhD, University of Edinburgh, Edinburgh, UK
Ping Koy Lam, PhD, Australian National University, Canberra, Australia
Daniel Loss, PhD, University of Basel, Basel, Switzerland
Marco Lucamarini, PhD, University of York, York, UK
Charles Marcus, PhD, University of Copenhagen, Copenhagen, Denmark
Christopher Monroe, PhD, University of Maryland, Maryland, USA
Franco Nori, PhD, RIKEN (Japan), University of Michigan, Michigan, USA
Jeremy O'Brien, PhD, University of Bristol, Bristol, UK
Tim Ralph, PhD, University of Queensland, Queensland, Australia
Robert J. Schoelkopf, PhD, Yale University, Connecticut, USA
Jacob Taylor, PhD, National Institute of Standards and Technology, Maryland, USA
Lieven Vandersypen, PhD, Kavli Institute of Nanoscience Delft, Delft, Netherlands
Jelena Vuckovic, PhD, Stanford University, California, USA
Jörg Wrachtrup, PhD, University of Stuttgart, Stuttgart, Germany
Amir Yacoby, PhD, Harvard University, Massachusetts, USA
Yoshihisa Yamamoto, PhD, Stanford University, California, USA
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