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* {{cite journal |first1=J |last1=Haegeman |first2=C |last2=Lubich |first3=I |last3=Oseledets |first4=B |last4=Vandereycken |first5=F |last5=Verstraete |title=Unifying time evolution and optimization with matrix product states |year=2016 |journal=Phys. Rev. B |volume=94 |issue=16 |pages=165116 |doi=10.1103/PhysRevB.94.165116 |bibcode=2016PhRvB..94p5116H |hdl=1854/LU-8152454 |s2cid=53321291 |url=https://biblio.ugent.be/publication/8152454/file/8152492.pdf|hdl-access=free }}
* {{cite journal |first1=V |last1=Zauner-Stauber |first2=L |last2=Vanderstraeten |first3=M T |last3=Fishman |first4=F |last4=Verstraete |first5=J |last5=Haegeman |title=Variational optimization algorithms for uniform matrix product states |journal=Phys. Rev. B |volume=97 |pages=045145 |year=2018 |issue=4 |doi=10.1103/PhysRevB.97.045145 |arxiv=1701.07035|bibcode=2018PhRvB..97d5145Z |s2cid=39603878 }}
* {{cite journal |first1=V |last1=Zauner-Stauber |first2=L |last2=Vanderstraeten |first3=M T |last3=Fishman |first4=F |last4=Verstraete |first5=J |last5=Haegeman |title=Variational optimization algorithms for uniform matrix product states |journal=Phys. Rev. B |volume=97 |pages=045145 |year=2018 |issue=4 |doi=10.1103/PhysRevB.97.045145 |arxiv=1701.07035|bibcode=2018PhRvB..97d5145Z |s2cid=39603878 }}
* {{cite journal |first1=M B |last1=Şahinoğlu |first2=D |last2=Williamson |first3=N |last3=Bultinck |first4=M |last4=Mariën |first5=J |last5=Haegeman |first6=N |last6=Schuch |first7=F |last7=Verstraete |title=Characterizing topological order with matrix product operators |journal=Annales Henri Poincaré |volume=22 |issue=2 |pages=563–592 |year=2021 |doi=10.1007/s00023-020-00992-4 |arxiv=|bibcode=2021AnHP...22..563S |s2cid=117976990 }}
* {{cite journal |first1=M B |last1=Şahinoğlu |first2=D |last2=Williamson |first3=N |last3=Bultinck |first4=M |last4=Mariën |first5=J |last5=Haegeman |first6=N |last6=Schuch |first7=F |last7=Verstraete |title=Characterizing topological order with matrix product operators |journal=Annales Henri Poincaré |volume=22 |issue=2 |pages=563–592 |year=2021 |doi=10.1007/s00023-020-00992-4 |arxiv=|bibcode=2021AnHP...22..563S |s2cid=117976990 |hdl=1854/LU-8707312 |hdl-access=free }}


==References==
==References==

Revision as of 04:40, 27 September 2021

Frank Verstraete
BornNovember 1972
CitizenshipBelgium
Alma materGhent University, KU Leuven
AwardsHermann Kümmel award (2007), Lieben Prize (2009), ERC grants (2009, 2015), Francqui Prize (2018)
Scientific career
FieldsPhysicist
InstitutionsUniversity of Vienna, University of Ghent
Doctoral advisorBart De Moor, Henri Verschelde
Other academic advisorsIgnacio Cirac, John Preskill

Frank Verstraete (* November 1972[1]) is a Belgian quantum physicist who is working on the interface between quantum information theory and quantum many-body physics. He pioneered the use of tensor networks and entanglement theory in quantum many body systems. He is full professor at the Faculty of Physics at Ghent University.

Career

Frank Verstraete obtained a degree of civil engineering in Louvain and of Master in Physics from Ghent University, and obtained his PhD on the topic of quantum entanglement in 2002 under supervision of Bart De Moor and Henri Verschelde at the KU Leuven.[2] He pioneered the use of quantum entanglement as a unifying theme for describing strongly interacting quantum many-body systems, which are among the most challenging systems to analyze theoretically or numerically, but also very promising for future quantum technologies such as quantum computers. After working as a postdoc at the Max Planck Institute for Quantum Optics in the group of Ignacio Cirac (2002-2004) and at the California Institute of Technology (2004-2006), he became full professor and the chair of theoretical quantum nanophysics at the University of Vienna in 2006. He moved back to Ghent University with an Odysseus grant from the FWO in 2012, where he has since built a large research group on applications of entanglement in quantum many-body systems.

Scientific work

Among his notable contributions is the discovery that there are nine different ways (represented by equivalence classes under stochastic LOCC operations (SLOCC)) in which four qubits can be entangled,[3] the theoretical demonstration that a universal quantum computer can be realized entirely by dissipation,[4] and the development of a quantum generalization of the classical Metropolis algorithm to find ground states of many-body Hamiltonians.[5] He played a leading role in the development of modern variational methods of quantum many-body physics based on Matrix product states (MPS), Tensor network states, and Projected entangled pair states (PEPS) and applying them to problems in condensed-matter physics, many-body physics, and quantum field theory. Among others, he was among the authors introducing fermionic PEPS, continuous MPS, and matrix product operators, and he is co-author of a highly cited review on the topic.[6]

Awards

Verstraete has received numerous awards, among them the Lieben Prize in 2009[7] and the Francqui Prize in 2018[8] and is also distinguished visiting research chair at the Perimeter Institute for Theoretical Physics in Waterloo, Ontario.[9]

Selected Publications

References

  1. ^ "The Hermann Kümmel Early Achievement Award in Many-Body Physics" (pdf). International Conference on Recent Progress in Many Body Theories. 2007. Retrieved 2021-06-22.
  2. ^ Frank Verstraete (2002). A study of entanglement in quantum information theory. Katholieke Universiteit Leuven.
  3. ^ Verstraete, Frank; Dehaene, J.; de Moor, B.; Verschelde, H. (2002). "Four qubits can be entangled in nine different ways". Phys. Rev. A. 65 (5): 052112. arXiv:quant-ph/0109033. Bibcode:2002PhRvA..65e2112V. doi:10.1103/PhysRevA.65.052112. S2CID 38168590.
  4. ^ Verstraete, F.; Wolf &, M. M.; Cirac, J. Ignacio (2009). "Quantum computation and quantum-state engineering driven by dissipation". Nature Physics. 5 (9): 633–636. arXiv:0803.1447. Bibcode:2009NatPh...5..633V. doi:10.1038/nphys1342.
  5. ^ Temme, K.; Osborne, T.; Vollbrecht, K.; Poulin, D.; Verstraete, F. (2011). "Quantum Metropolis Sampling". Nature. 471 (7336): 87–90. arXiv:0911.3635. Bibcode:2011Natur.471...87T. doi:10.1038/nature09770. PMID 21368829. S2CID 4320890.
  6. ^ Verstraete, F.; Cirac, J. I.; Murg, V. (2008). "Matrix Product States, Projected Entangled Pair States, and variational renormalization group methods for quantum spin systems". Adv. Phys. 57 (2): 143–224. arXiv:0907.2796. Bibcode:2008AdPhy..57..143V. doi:10.1080/14789940801912366. S2CID 17208624.
  7. ^ "Ignaz L. Lieben-Preis 2009 an Frank Verstraete". Der Standard (in German). 2009-11-06. Retrieved 2021-06-22.
  8. ^ "Frank Verstraete awarded prestigious Franqui Prize". Austrian Academy of Sciences. 2018-06-15. Retrieved 2021-06-22.
  9. ^ "Frank Verstraete - QUTE — Ghent University". www.ugent.be. Retrieved 2018-05-19.