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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220103
DTEND;VALUE=DATE:20220226
DTSTAMP:20260526T175627
CREATED:20240408T150743Z
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SUMMARY:Towards Classically Intractable Quantum Simulations of Physics and Chemistry
DESCRIPTION:Within the next decade\, quantum computing has the potential to provide insight to problems in physics and chemistry that would otherwise be intractable. Examples of such problems span from predicting molecular spectra to simulating field theories to probing the dynamics of spin models. Because large fault tolerant machines are still in the distant future\, it will be important to design algorithms customized to current and near-term experimental hardware with a focus on NISQ (noisy-intermediate-scale quantum) devices as well as early fault tolerant machines. In order for quantum computational approaches to compete effectively with the best classical methods for simulation\, it will be necessary to leverage every trick discovered in the «classical» quantum community and so we encourage the participation of those who have backgrounds in classical simulations of quantum many-body physics but might be new to quantum computation.This program will encourage exploration of both physics-based and complexity theoretic approaches to assessing which systems are most challenging for classical simulations\, novel ways of using the resources provided by NISQ processors\, and strategies for significantly reducing the costs of fault-tolerant quantum simulations. The program will bring together diverse communities and viewpoints at the intersection of error-correction\, many-body physics\, and quantum algorithms to tackle these problems.
URL:https://www.qureca.com/es/calendar/towards-classically-intractable-quantum-simulations-of-physics-and-chemistry/
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220109
DTEND;VALUE=DATE:20220115
DTSTAMP:20260526T175627
CREATED:20240408T150755Z
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UID:10000086-1641686400-1642204799@www.qureca.com
SUMMARY:Quantum Simulation with Quantum Hardware
DESCRIPTION:While simulation of quantum problems with classical computers has revolutionized fields like chemistry\, materials science\, condensed matter and nuclear physics\, successful implementation of quantum algorithms has the potential to yield enormous additional computational capabilities for studying complex quantum systems. Over the past several decades there has been considerable progress in the development of quantum hardware. Currently\, state of the art quantum machines\, both analog and digital\, are at the threshold where the computational power of these machines is about to exceed that of conventional computers. \nAt this Aspen Winter Conference\, we will bring together people working on state-of-the-art quantum hardware\, both analog and digital\, with leading theoretical physicists in order to explore how to harness the power of quantum computers for solving a broad range of hard quantum problems. The meeting will foster collaborations by exploring what can be done with the current generation of quantum hardware\, identifying quantum problems/models which may be solvable using quantum hardware in the future\, and determining how to optimize quantum hardware for solving physics problems.
URL:https://www.qureca.com/es/calendar/quantum-simulation-with-quantum-hardware/
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220122
DTEND;VALUE=DATE:20220128
DTSTAMP:20260526T175627
CREATED:20240408T150755Z
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UID:10000090-1642809600-1643327999@www.qureca.com
SUMMARY:Quantum West 2022
DESCRIPTION:Hear from experts discussing market prospects\, information systems and computing\, communications\, sensing and imaging\, a special focus on photonics in quantum\, and the path for building a commercial ecosystem. Quantum West will take place 26 January at Photonics West 2022 and feature invited speakers throughout the day. This event is organized in partnership with the Quantum Economic Development Consortium (QED-C). We look forward to gathering safely with everyone in January.
URL:https://www.qureca.com/es/calendar/quantum-west-2022/
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220122
DTEND;VALUE=DATE:20220128
DTSTAMP:20260526T175627
CREATED:20240408T150758Z
LAST-MODIFIED:20240408T150800Z
UID:10000093-1642809600-1643327999@www.qureca.com
SUMMARY:SPIE Photonics West
DESCRIPTION:Join us in San Francisco for Photonics West 2022 \n\nExperience the energy of Photonics West as everyone gathers for an exciting year in San Francisco. Get ready to enjoy real conversations\, hear the latest breakthroughs\, and make important connections in person. Hear cutting-edge research in biomedical optics\, biophotonics\, industrial lasers\, optoelectronics\, microfabrication\, MOEMS-MEMS\, displays\, and more. Attend technical presentations\, courses\, two world-class exhibitions\, plenary presentations\, and a variety of networking activities. Meet up with the optics and photonics community at the Moscone Center.
URL:https://www.qureca.com/es/calendar/spie-photonics-west/
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BEGIN:VEVENT
DTSTART;VALUE=DATE:20220123
DTEND;VALUE=DATE:20220129
DTSTAMP:20260526T175627
CREATED:20240408T150802Z
LAST-MODIFIED:20240408T150804Z
UID:10000096-1642896000-1643414399@www.qureca.com
SUMMARY:New Directions in Strong Correlation Physics
DESCRIPTION:From Strange Metals to Topological Superconductivity\nA number of recent developments in the field of strongly correlated electron systems such as strange metal behaviour probed by new tools or detected in new settings\, as well as new types of unconventional superconductors\, including candidate topological superconductors—are creating a lot of excitement. Yet these developments have often taken place in isolation\, with very limited cross-talk between these topics. This workshop seeks to discuss these topics under a common roof. The goal is to advance the understanding of complex materials and stimulate progress in adjacent fields.
URL:https://www.qureca.com/es/calendar/new-directions-in-strong-correlation-physics/
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