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X-WR-CALDESC:Events for ConQuMat - TRR360
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DTSTART;TZID=Europe/Berlin:20240130T160000
DTEND;TZID=Europe/Berlin:20240130T170000
DTSTAMP:20260519T173940
CREATED:20240125T094748Z
LAST-MODIFIED:20240507T214307Z
UID:917-1706630400-1706634000@www.trr360.de
SUMMARY:TRR 360 Seminar: Controlled quantum materials Daniele Fausti
DESCRIPTION:Controlled quantum materials\nD. Fausti 1\,2\,3\n1 Department of Physics\, University of Trieste\, Trieste\n2 Elettra Sincrotrone Trieste S.c.p.a.\, Trieste\n3 Department of Physics\, University of Erlangen Nuremberg \nThe rich phase diagrams of many transition metal oxides (TMOs) is the result of the intricate interplay between electrons\, phonons\, and magnons. This makes TMOs very susceptible to external parameters such as pressure\, doping\, magnetic field\, and temperature which in turn can be used to finely tune their properties. The same susceptibility makes TMOs the ideal playground to design experiments where the interaction between tailored electromagnetic fields and matter can trigger the formation of new\, sometimes exotic\, physical properties. This aspect has been explored in time domain studies [1] and has led to the demonstration that ultrashort mid-IR light pulses can “force” the formation of quantum coherent states in matter\, disclosing a new regime of physics where thermodynamic limits may be bridged and quantum effects can\, in principle\, appear at ambient temperatures. \nIn this presentation I will review our recent results in archetypal strongly correlated cuprate superconductors and demonstrate the feasibility of a light-based control of quantum phases in real materials [2\,3\,4]. I will then introduce our new approaches to time domain spectroscopy going beyond mean photon number observables [5-10] and show that the statistical features of light can provide information on superconducting fluctuations beyond standard linear and non-linear optical spectroscopies [11]. Finally\, I will elaborate on our current research effort to use cavity electrodynamics to control fluctuations in matter and thereby the onset of quantum coherent states in complex materials [12]. \nReferences:\n[1] Advances in Physics 65\, 58-238\, 2016\n[2] Science 331\, 189-191 (2011)\n[3] Phys. Rev. Lett. 122\, 067002 (2019)\n[4] Nature Physics 17\, 368–373 (2021)\n[5] Phys. Rev. Lett. 119\, 187403 (2017)\n[6] New J. Phys. 16 \,043004 (2014)\n[7] Nat. Commun. 6\, 10249 (2015)\n[8] PNAS March 19\, 116 (12) 5383-5386 (2019)\n[9] J. of Physics B 53\, 145502 (2019)\n[10] Optics Letters 45\, 3498 (2020)\n[11] Light: Science & Applications 11\, # 44 (2022)\n[12] Nature 622\, 487–492 (2023) \n\n\n\n\n\n\nVenue
URL:https://www.trr360.de/event/trr360-test-seminar/
LOCATION:University of Augsburg\, Room S-288 + Zoom
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20240125T110000
DTEND;TZID=Europe/Berlin:20240125T120000
DTSTAMP:20260519T173940
CREATED:20240131T101703Z
LAST-MODIFIED:20240131T101703Z
UID:1054-1706180400-1706184000@www.trr360.de
SUMMARY:1. Steering Committee Meeting
DESCRIPTION:
URL:https://www.trr360.de/event/1-steering-committee-meeting/
LOCATION:Zoom Conference
CATEGORIES:steering committee meeting
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20240116T160000
DTEND;TZID=Europe/Berlin:20240116T170000
DTSTAMP:20260519T173940
CREATED:20240123T121712Z
LAST-MODIFIED:20240507T214459Z
UID:902-1705420800-1705424400@www.trr360.de
SUMMARY:TRR 360 Seminar:  Broadband optical studies of kagome metals Ece Uykur
DESCRIPTION:Broadband optical studies of kagome metals: Electronic correlations\, localized\ncarriers and phonons\nEce Uykur\nInstitute of Ion Beam Physics and Materials Research\, Helmholtz-Zentrum\nDresden-Rossendorf\, 01328\, Dresden\, Germany \n  \nKagome metals attract a lot of attention as materials that combine two extreme features in their\nelectronic structure: Massless Dirac fermions with linear band dispersion and flat bands hosting massive\nlocalized electrons. Topological nature of the former and strongly correlated nature of the latter lead to\nmultitude of exotic phenomena\, including quantum anomalous Hall effect and novel states\, such as axion insulators. The electron dynamics of these systems is the key for understanding the proposed exotic phenomena. \nTo this end\, we employed broadband infrared and ultrafast pump-probe spectroscopy studies on\nseries of kagome metals. In this talk\, I will summarize the optical fingerprints of itinerant and localized\ncarriers\, signatures of electronic correlations\, and the interplay between unconventional carriers and\nphonons in these systems. \n  \n\n\n\n\n\n\nVenue
URL:https://www.trr360.de/event/trr360-seminar/
LOCATION:University of Augsburg\, Room S-288 + Zoom
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20231205T160000
DTEND;TZID=Europe/Berlin:20231205T170000
DTSTAMP:20260519T173940
CREATED:20240209T142219Z
LAST-MODIFIED:20240507T214654Z
UID:1287-1701792000-1701795600@www.trr360.de
SUMMARY:TRR 360 Seminar: Magneto-optical detection of topological contributions to the anomalous Hall effect in kagome magnets Sándor Bordács
DESCRIPTION:Venue
URL:https://www.trr360.de/event/trr360-sonderseminar-sandor-bordacs/
LOCATION:University of Augsburg\, Room S-288 + Zoom
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20231128T100000
DTEND;TZID=Europe/Berlin:20231129T160000
DTSTAMP:20260519T173940
CREATED:20250221T100536Z
LAST-MODIFIED:20250221T100538Z
UID:1335-1701165600-1701273600@www.trr360.de
SUMMARY:Young Researchers Forum 2023
DESCRIPTION:This 2-day event will be used as an ice breaker for the members of the MGK. The young researcher get the chance to get to know each other. First young researchers present topics related to their work. The Ö-project gives a presentation about Educational Escape Games and ideas of the young researchers for the Quantum Escape Game of the Ö-projects shall be discussed.
URL:https://www.trr360.de/event/young-researchers-forum-2023/
LOCATION:University of Augsburg\, Universitätsstr. 2\, Augsburg\, 86159
CATEGORIES:Events,MGK events
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Berlin:20231108T170000
DTEND;TZID=Europe/Berlin:20231108T180000
DTSTAMP:20260519T173940
CREATED:20240209T113946Z
LAST-MODIFIED:20240507T214924Z
UID:1246-1699462800-1699466400@www.trr360.de
SUMMARY:TRR 360 Sonderseminar: The unusual electron transport in metallic Kagome nets Philip J. W. Moll
DESCRIPTION:The unusual electron transport in metallic Kagome nets \nProf. Dr. Philip J. W. Moll \nMax Planck Institute for the Structure and Dynamics of Matter \n  \nMaterials that can host different states of electronic order form a recurring theme in physics and \nmaterials science\, and they are of particular interest if they are coupled strongly. A famous \nexample are ferroelectrics\, in which electric polarization and magnetism not only coexist but are \nstrongly linked. This both unveils a rich physics of correlated states\, and also opens unexpected \napplication avenues as the coupling promises to manipulate one state by a stimulus that primarily \nacts on another – say switching magnetism using electric fields. \nRecently\, materials based on the structural motif of the Kagome web have attracted significant \nattention for their tendency to host such strongly coupled phases. In particular\, the centro- \nsymmetric layered Kagome metal (K\,Cs)V3Sb5 have entered the focus of experimental and \ntheoretical research. They host a charge-density-wave type transition at elevated temperatures \n~100K\, followed by a superconducting transition at 3K (exact values depend on composition). \nYet there is another type of electronic order which thus far eludes exact microscopic \nidentification. A series of experimental probes detects the onset of anomalous behavior around \nT’~30-40K\, including thermal Hall\, µSR\, NMR\, magnetic torque\, Kerr rotation. The anomalous \nlow-temperature state carries the characteristics of a chiral\, nematic and time-reversal-symmetry \nbreaking fluid (all of which are under most active debate currently). \nYet what crystallizes out of the current state of experimental data is a highly entangled system \nwhich is extraordinarily responsive to external perturbations. This materials main strength is \nequally its weakness\, the unusual degree of coupling between states can hinder its systematic \ninvestigation. However\, it is already clear that it provides a platform to explore strongly coupled \ncorrelated phases\, and as a result it displays a thus-far unknown electromagnetic response\, a \ndiode in which the forward direction can be switched by the application of a magnetic field. I \nwill review the current state of the field\, and discuss ongoing projects in my department. \n  \n[1] C. Guo et al.\, Nature 611\, 461-466 (2022) \n[2] X. Huang et al.\, PRB 106\, 064510 (2022) \n\n\n\n\n\n\nVenue
URL:https://www.trr360.de/event/trr360-sonderseminar-magnetic-field-versus-temperature-phase-diagram-of-an-effective-spin-1-2-zigzag-chain-in-a-magnetic-semiconductor-ybcus2-takahiro-onimaru/
LOCATION:University of Augsburg\, Room S-288 + Zoom
CATEGORIES:Sonderseminar
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20231009
DTEND;VALUE=DATE:20231011
DTSTAMP:20260519T173940
CREATED:20240123T103458Z
LAST-MODIFIED:20240212T121624Z
UID:867-1696809600-1696982399@www.trr360.de
SUMMARY:Retreat Meeting 2023
DESCRIPTION:The first project retreat meeting of TRR360 – ConQuMat takes place at Kloster Irrsee. There\, all project members get together to introduce their research plans and subprojects as well as get to know each other. \n\n 
URL:https://www.trr360.de/event/retreat-meeting-2023/
LOCATION:Kloster Irsee\, Klosterring 4\, Irsee\, 87660\, Germany
CATEGORIES:Events,retreat meeting
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