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Home
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Dr.
CSIC
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3
The 35th International Symposium on Lattice Field Theory
The 35th International Symposium on Lattice Field Theory gathers a large community of theoretical particle physics researchers, experts in the study of strongly interacting systems – primarily Quantum Chromodynamics, the theory describing the strong interactions of quarks and gluons. The Symposium will be held from the 18th to the 24th of June 2017 in an exceptional location, Granada, a jewel of multicultural architecture and heritage. The Conference venue, the Granada Exhibition and Conference Centre, is very well situated in the centre of this historic city. The Symposium will take place for the first time in Spain and is jointly organised by the Spanish Lattice Field Theory community.
False
Palacio de Congresos
PALACIO DE CONGRESOS
Paseo del Violón s/n, 18006
Granada, SPAIN
2017-06-18T17:00:00
2017-06-24T14:00:00
2016-06-09T17:36:25
2018-01-02T17:41:17
Europe/Madrid
Dr.
University of Granada
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Dr.
CSIC
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Mr.
UGR
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Prof.
Universidad Autónoma de Madrid and IFT UAM-CSIC
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CP3-Origins
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CERN
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79
false
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Plenary
Quantum simulations of high energy physics models
Max-Planck Institut für Quantenoptik
a0ccccf12c0a34812e518b2a713f59ad
Max-Planck Institut für Quantenoptik
a0ccccf12c0a34812e518b2a713f59ad
Palacio de Congresos
PALACIO DE CONGRESOS
Paseo del Violón s/n, 18006
Granada, SPAIN
Auditorio Manuel de Falla
2017-06-19T11:15:00
2017-06-19T12:00:00
00:45
Many-body quantum systems are very hard to describe and simulate in general, since the dimension of the state space grows exponentially with
the number of particles, volume, etc. Cold atomic systems may help us in that task, as one can in principle engineer the interactions among the atoms to emulate many-body quantum problems. So far, this possibility has
been mainly addressed in the context of condensed matter systems, and a significant experimental effort is nowadays trying to pursue this goal. In this talk I will present some recent work where we have analyzed how to use
cold atomic systems to simulate simple high-energy models. In particular,
I will explain how lattice (compact) QED and QCD in different dimension may be simulated. Time permiting, I will also mention other efforts to describe and simulate (classically) some of those problems using tensor-network techniques, as developed in the context of quantum information theory.
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