Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
ICFO Colloquium Series: Quantum Many-body theory in the Quantum Information era
BIO:
Matthew Fisher received his Ph.D. in theoretical physics from the University of Illinois at Urbana-Champaign in 1986, and went on to become first a Visiting Scientist and then a Research Staff Member at IBM T. J. Watson Research Center (1986-1993). Matthew joined the Kavli Institute for Theoretical Physics and the Physics Department of the University of California in 1993. In 2007 he joined Microsoft's Station Q as a research physicist, on leave from the UCSB physics department. During the academic year 2009-2010 Matthew was on the faculty at Caltech, returning to the physics department at UCSB in summer 2010. Fisher received the Alan T. Waterman Award bestowed by the National Science Foundation in 1995, the National Academy of Sciences Award for Initiatives in Research in 1997, and the Oliver E. Buckley Prize in Condensed Matter Physics in 2015. He was elected as a Member of the American Academy of Arts and Sciences in 2003 and to the National Academy of Sciences in 2012.
ABSTRACT:
Traditionally, quantum many-body theory has focussed on ground states and equilibrium prop-erties of spatially extended systems, such as electrons and spins in crystalline solids. In recent years \noisy intermediate scale quantum computers" (NISQ) have emerged, providing new oppor-tunities for controllable non-equilibrium many-body systems. In such dynamical quantum systems the inexorable growth of non-local quantum entanglement is expected, but monitoring (by making projective measurements) can compete against entanglement growth. In this talk I will overview theoretical work exploring the behavior of \monitored" quantum circuits, which can exhibit a novel quantum dynamical phase transition between a weak measurement phase and a quantum Zeno phase, the former which we characterize in detail. Accessing such physics in the lab is chal-lenged by the need for post-selection, which might be circumnavigated by decoding using active error correction.
Hosted by Prof. Dr. Maciej Lewenstein
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
ICFO Colloquium Series: Quantum Many-body theory in the Quantum Information era
BIO:
Matthew Fisher received his Ph.D. in theoretical physics from the University of Illinois at Urbana-Champaign in 1986, and went on to become first a Visiting Scientist and then a Research Staff Member at IBM T. J. Watson Research Center (1986-1993). Matthew joined the Kavli Institute for Theoretical Physics and the Physics Department of the University of California in 1993. In 2007 he joined Microsoft's Station Q as a research physicist, on leave from the UCSB physics department. During the academic year 2009-2010 Matthew was on the faculty at Caltech, returning to the physics department at UCSB in summer 2010. Fisher received the Alan T. Waterman Award bestowed by the National Science Foundation in 1995, the National Academy of Sciences Award for Initiatives in Research in 1997, and the Oliver E. Buckley Prize in Condensed Matter Physics in 2015. He was elected as a Member of the American Academy of Arts and Sciences in 2003 and to the National Academy of Sciences in 2012.
ABSTRACT:
Traditionally, quantum many-body theory has focussed on ground states and equilibrium prop-erties of spatially extended systems, such as electrons and spins in crystalline solids. In recent years \noisy intermediate scale quantum computers" (NISQ) have emerged, providing new oppor-tunities for controllable non-equilibrium many-body systems. In such dynamical quantum systems the inexorable growth of non-local quantum entanglement is expected, but monitoring (by making projective measurements) can compete against entanglement growth. In this talk I will overview theoretical work exploring the behavior of \monitored" quantum circuits, which can exhibit a novel quantum dynamical phase transition between a weak measurement phase and a quantum Zeno phase, the former which we characterize in detail. Accessing such physics in the lab is chal-lenged by the need for post-selection, which might be circumnavigated by decoding using active error correction.
Hosted by Prof. Dr. Maciej Lewenstein
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Hour: From 12:00h to 13:00h
Place: Auditorium
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Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium
Hour: From 12:00h to 13:00h
Place: ICFO Auditorium