From johannes.hofmann at physics.gu.se Tue Sep 6 19:07:36 2022 From: johannes.hofmann at physics.gu.se (Johannes Hofmann) Date: Tue, 6 Sep 2022 19:07:36 +0200 Subject: [Level3soliden] Fwd: Postdoc positions at Uppsala References: <0B0EECAA-3511-496B-9DB6-3A1B937711A3@physics.uu.se> Message-ID: > Begin forwarded message: > > From: Annica Black-Schaffer > Subject: Postdoc positions at Uppsala > Date: 6 September 2022 at 19:00:54 CEST > To: Annica Black-Schaffer > > Dear Colleague, > > We have 1-2 postdoctoral scholarship positions open at Uppsala and would be very grateful if you could bring the announcement to the attention of potential candidates. > > Best regards, > Annica > > > ---------------------------------------------------------------------------------- > Annica Black-Schaffer > Professor > Department of Physics and Astronomy > Uppsala University > Box 516, S-751 20 Uppsala, Sweden > Cell: +46-(0) 76 795 06 49 > Web: materials-theory.physics.uu.se/blackschaffer > > > > > > Postdoctoral scholarship position(s) in quantum matter theory at Uppsala University > > The division of Materials Theory at Uppsala University offers a world-class environment for materials theory research, with interests spanning from strongly correlated and topological states of matter to atomistic spin simulations and first-principles calculations of materials properties. The division is highly international and currently consists of approximately 90 active researchers, of which approximately a third are Ph.D. students. The positions are within the quantum matter theory program in the research group of Prof. Annica Black-Schaffer, which currently hosts seven Ph.D. students and postdocs. > > The overall aim of the research is to gain deeper and fundamental knowledge of the mechanisms and properties of topological and unconventional superconductors. Currently three larger projects are being pursued. The goal of the first project is to theoretically discover and characterize new quantum states of matter by novel combinations of global topology and local superconducting order. Several systematic and interlinked approaches are being pursued, ranging from using flat band normal-state dispersions to spontaneously breaking time-reversal symmetry or using nanosctructuring to sculpture artificial boundaries in topological matter. The second project aims at discovering and exploring entirely new mechanisms and materials for odd-frequency superconductivity. Odd-frequency superconductivity is the key to understand the physics of superconductor-ferromagnet structures, and the project aims to extend the concept and importance of odd-frequency superconductivity to a far wider set of materials, ranging from multiband to topological superconductors. The third project is a joint theory-experimental collaboration aiming to address some of the basic questions about dynamic quantum matter, the nature of the orders in the time domain of quantum mechanics, the emergence of entangled orders, and the role of dissipation on quantum orders. > > We are seeking up to two highly motivated and well-qualified researchers holding a Ph.D. degree in condensed matter theory, or equivalently. Ability to perform both analytical and numerical work is beneficial. The successful candidates should be able to independently take responsibility for specific research projects but also work well in teams. Excellent oral and written communication skills in English are required. The scholarship is for 2 years, with the possibility of additional extension depending on scientific progress. > > The application should include > 1) Cover letter > 2) CV > 3) Publication list > 4) Statement of research interests > 5) List (including email addresses) of up to three references > and should be sent as a single PDF file to annica.blackschaffer at physics.uu.se with keyword Postdoc2022 in the subject line. > > Review of applications will begin after October 1st 2022 and will continue until the positions are filled. > > Uppsala University is striving to achieve a more even gender balance and women are especially encouraged to apply. > > For more information: http://materials-theory.physics.uu.se/blackschaffer or contact Prof. Annica Black-Schaffer, email: annica.black-schaffer at physics.uu.se , phone: +46-(0)76 795 06 49 > ---------------------------------------------------------------------------------- > > > > > > > > > > > > > > > > > N?r du har kontakt med oss p? Uppsala universitet med e-post s? inneb?r det att vi behandlar dina personuppgifter. F?r att l?sa mer om hur vi g?r det kan du l?sa h?r: http://www.uu.se/om-uu/dataskydd-personuppgifter/ > > E-mailing Uppsala University means that we will process your personal data. For more information on how this is performed, please read here: http://www.uu.se/en/about-uu/data-protection-policy -------------- next part -------------- An HTML attachment was scrubbed... URL: From johannes.hofmann at physics.gu.se Tue Sep 20 13:40:34 2022 From: johannes.hofmann at physics.gu.se (Johannes Hofmann) Date: Tue, 20 Sep 2022 13:40:34 +0200 Subject: [Level3soliden] Fwd: Lise Meitner Distinguished Lecture Thursday 22 Sept 2022 at 15:15 Immanuel Bloch (MPI), Quantum Simulations using Ultracold Atoms in Optical Lattices References: Message-ID: <88BD3B9B-DF42-48FF-A5A9-2582C5A2ECC1@physics.gu.se> > Begin forwarded message: > > From: Egor Babaev > Subject: Fwd: FW: Lise Meitner Distinguished Lecture Thursday 22 Sept 2022 at 15:15 Immanuel Bloch (MPI), Quantum Simulations using Ultracold Atoms in Optical Lattices > Date: 20 September 2022 at 12:57:34 CEST > To: Stephanie Reimann , Per Delsing , Olle Eriksson , Mikael Fogelstr?m , "Anne L'Huillier" , G?ran Johansson , Annica Black-Schaffer , stefan.kroll at fysik.lth.se, johannes.hofmann at physics.gu.se > > Dear Colleagues, > For your information, this Thursday 22 Sept 2022 a we will have Lise Meitner Distinguished Lecture by Immanuel Bloch > if you think that is of interest to some divisions at your institutions please feel free to forward that information, which includes Zoom link > with best regards > Egor > > > ---------- Forwarded message --------- > > > > > From: Egor Babaev > Sent: Sunday, September 18, 2022 10:38:00 AM (UTC+01:00) Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna > To: student at fysik.su.se ; colloquium at albanova.se > Subject: Lise Meitner Distinguished Lecture Thursday 22 Sept 2022 at 15:15 Immanuel Bloch (MPI), Quantum Simulations using Ultracold Atoms in Optical Lattices > > Dear Colleagues and students, > > We are happy to announce this Thursday's Lise Meitner Distinguished Lecture given by Immanuel Bloch https://www.quantum-munich.de/104554/bloch-immanuel-prof-dr Scientific director at the Max-Planck-Institute of Quantum Optics, Garching > > > > The lecture will be in the Oskar Klein Auditorium and on Zoomhttps://stockholmuniversity.zoom.us/j/67598831477 > Date:Thursday 22 Sept 2022 > Time: 15:15 > Venue: Oskar Klein Auditorium (FR4) > Zoom: https://stockholmuniversity.zoom.us/j/67598831477 > Title: Quantum Simulations using Ultracold Atoms in Optical Lattices > > Abstract: 40 years ago, Richard Feynman outlined his vision of a quantum simulator for carrying out complex calculations of physical problems. Today, his dream has become a reality and a highly active field of research across different platforms ranging from ultracold atoms and ions, to superconducting qubits and photons. In my lecture, I will outline how ultracold atoms in optical lattices started this vibrant and interdisciplinary research field 20 years ago and now allow probing quantum phases in- and out-of-equilibrium with fundamentally new tools and single particle resolution. Novel (hidden) order parameters, entanglement properties, full counting statistics or topological features can now be measured routinely and provide deep new insight into the world of correlated quantum matter. I will introduce the measurement and control techniques and a few recent applications regarding quantum simulations of condensed matter systems, namely the Fermi Hubbard model, which plays an essential role in the context of High-Tc superconductivity, experiments on new dynamical phases of matter, as well as topological systems. > -------------- next part -------------- An HTML attachment was scrubbed... URL: