Giuseppe Carleo (EPFL, Lausanne) will give a seminar on Friday January 20th at 11 AM in Nevill Mott hall (D420) in building D (on the CNRS campus).
Abstract: Machine-learning-based approaches, routinely adopted in cutting-edge industrial applications, are being increasingly adopted to study fundamental problems in science. Many-body physics is very much at the forefront of these exciting developments, given its intrinsic "big-data" nature. In this seminar I will present selected applications to the quantum realm.
First, I will discuss how a systematic, and controlled machine learning of the many-body wave-function can be realized. This goal is achieved by a variational representation of quantum states based on artificial neural networks [1].
I will then discuss recent applications in diverse domains, focusing on prototypical open problems in many-body quantum physics.
I will especially focus on the problem of accurately describing interacting fermions, in Condensed Matter [2], Chemistry [3], and Nuclear Matter [4] — where these approaches have significantly improved over previous variational descriptions.
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[1] Carleo and Troyer, Science 355, 602 (2017)
[3] Moreno et al., PNAS 119, e2122059119 (2022)
[4] Hermann et al., Nat. Chemistry 12, 891 (2020)
[5] Adams et al., Phys. Rev. Lett. 127, 022502 (2021)
Published on January 11, 2023
Updated on January 11, 2023
Date
On January 20, 2023
10:30 AM - Coffee and croissants
11:00 AM - Start of the seminar
Location
Nevill Mott Hall - D420 Building D - Third Floor CNRS Campus 25 rue des Martyrs 38000 Grenoble
Access to the CNRS campus is restricted. Please bring your badge or contact the organizer (Michele Filippone) to gain access to the campus well in advance.
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