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X-WR-CALNAME:Theoretical Quantum Matter
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X-WR-CALDESC:Events for Theoretical Quantum Matter
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TZID:Europe/Stockholm
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DTSTART:20180325T010000
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DTSTART:20181028T010000
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DTSTART:20190331T010000
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DTSTART:20191027T010000
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BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191112T150000
DTEND;TZID=Europe/Stockholm:20191112T160000
DTSTAMP:20260501T181307
CREATED:20191112T125505Z
LAST-MODIFIED:20191112T125505Z
UID:1588-1573570800-1573574400@tqmatter.org
SUMMARY:Group Meeting
DESCRIPTION:Schedule: \nPresentation by Razmik.
URL:https://tqmatter.org/event/group-meeting-7/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191107T164500
DTEND;TZID=Europe/Stockholm:20191107T171500
DTSTAMP:20260501T181307
CREATED:20191106T115259Z
LAST-MODIFIED:20191106T115259Z
UID:1582-1573145100-1573146900@tqmatter.org
SUMMARY:Di Peng - Antiferromagnetic order and possible quantum spin liquid in sodium doped 2\,2′-bipyridine  
DESCRIPTION:Antiferromagnetic order and possible quantum spin liquid in sodium doped 2\,2′-bipyridine\n \nDi Peng\nCenter for High Pressure Science and Technology Advanced Research\, Shanghai 201203\, China\n \nOrganic molecular solids with correlated electronics based on π-electron networks provide fertile ground for the search for peculiar materials\, including antiferromagnetic and quantum magnetism.  We report a development method for doping alkali metals into organic materials and forming a homogeneous phase together with the experimental discoveries of two antiferromagnetic phase in sodium doped 2\,2′-bipyridine at different molar ratios. An antiferromagnetic phase of 160 K is found in sodium-doped 2\,2′-bipyridine with a molar ratio of less than 1:1. Another antiferromagnetic phase with Neel temperature of 25 K is observed in samples with molar ratios of 1:1 and 1:2. Applying magnetic field can slowly suppress the 160 K antiferromagnetic phase\, while the 25 K antiferromagnetic phase is insensitive to the applied field rather than showing an increase of magnetization below 6 K. This behavior is consistent with the characteristics of quantum spin liquid\, in which strong quantum fluctuations lead to the disorder at low temperatures. We will discuss more about the experimental details about whether a strong spin frustrated antiferromagnetic phase is formed in sodium-doped 2\,2′-bipyridine and whether it enters a quantum spin liquid state at low temperatures.\n\n 
URL:https://tqmatter.org/event/di-peng-antiferromagnetic-order-and-possible-quantum-spin-liquid-in-sodium-doped-22%e2%80%b2-bipyridine/
CATEGORIES:Talks
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191107T161500
DTEND;TZID=Europe/Stockholm:20191107T164500
DTSTAMP:20260501T181307
CREATED:20191106T115210Z
LAST-MODIFIED:20191106T115210Z
UID:1580-1573143300-1573145100@tqmatter.org
SUMMARY:Ren-Shu Wang - Exploring superconductivity in organobismuth molecules
DESCRIPTION:Exploring superconductivity in organobismuth molecules\n \nRen-Shu Wang\nCenter for High Pressure Science and Technology Advanced Research\, Shanghai 201203\, China\n \nRecently\, novel quantum phenomena such as topological insulators and superconductors were suggested in organometallic materials. Three different types of organobismuth molecules\, including triphenylbismuth (TPB)\, tri-p-tolylbismthine (p-TTB)\, and tri-o-tolylbismthine (o-TTB)\, were investigated to explore organic superconductivity by alkali metal doping. The target organic molecules have similar structures\, expect for the type and the position of the functional group. The dc and ac magnetic susceptibility\, and electrical resistivity measurements reveal that all these doped molecules exhibit superconductivity\, and their Tc’s vary from 3.5 (and/or 7.2) to 3.6 (and/or 5.3) and 3.6 K for K-doped TPB\, p-TTB\, and o-TTB\, respectively. The shield fractions (SFs) of the main superconducting phases at 1.8 K are 3.74%\, 18%\, and 17% for K-doped TPB\, p-TTB\, and o-TTB\, respectively. In comparison with TPB\, adding the -CH3 groups in p-TTB and o-TTB do not make much difference for Tc of main phase rather than bringing about the increase of the SF\, indicating that the simple addition of functional groups is an effective way to tune (super)conductivity in such materials. The main superconducting phases and their composition in these molecules are determined by combined studies of X-ray diffraction and theoretical calculations as well as Raman spectroscopy measurements. These findings enrich the applications of organometallic compounds in superconductivity and add a new electron-acceptor family of organic superconductors. \n\n  \n\n\n 
URL:https://tqmatter.org/event/ren-shu-wang-exploring-superconductivity-in-organobismuth-molecules/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Talks
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191107T150000
DTEND;TZID=Europe/Stockholm:20191107T160000
DTSTAMP:20260501T181307
CREATED:20191106T115721Z
LAST-MODIFIED:20191106T115721Z
UID:1586-1573138800-1573142400@tqmatter.org
SUMMARY:[Colloqium] David Cassidy - Recent experimental progress in positronium-laser physics
DESCRIPTION:Speaker: David Cassidy from the University College London. \nTitle: Recent experimental progress in positronium-laser physics \nTime and place: Thursday November 7 at 15.15 (coffee and tea from 15.00) in the Oskar Klein auditorium FR4. \nAbstract:\nThe field of experimental positronium physics has advanced significantly in recent years\, in many cases by employing new techniques for trapping and manipulating positrons using Surko-type buffer gas traps [1]. These devices capture and store positrons\, allowing for the production of high quality DC beams\, or high intensity pulsed beams. The latter approach can be used to create an instantaneous cloud of Ps atoms that can be probed with standard ns pulsed lasers. This allows for the optical production of excited Ps states\, ranging from 2P levels\, which decay back to the ground state in 3.2 ns\, to metastable 2S states\, that cannot decay radiatively\, but will self-annihilate (in 1.1 microseconds)\, to long-lived Rydberg states\, that do not annihilate at all and\, for easily produced states\, may have radiative lifetimes of hundreds of microseconds [2]. The ability to generate Ps atoms in excited states facilitates numerous experimental programs [3]\, including precision optical and microwave spectroscopy and the application of Stark deceleration methods to guide\, decelerate and focus Rydberg Ps beams. In this talk I will discuss recent examples of such experiments and what may be possible in the near future. \nReferences\n[1] Plasma and trap-based techniques for science with positrons\, J. R. Danielson\, D. H. E. Dubin\, R. G. Greaves\, and C. M. Surko\, Rev. Mod. Phys. 87\, 247 (2015).\n[2] Measurement of Rydberg positronium fluorescence lifetimes\, A. Deller\, A. M. Alonso\, B. S. Cooper\, S. D. Hogan\, and D. B. Cassidy\, Phys. Rev. A 93\, 062513 (2016).\n[3] Experimental progress in positronium laser physics\, D. B. Cassidy\, Eur. Phys. J. D 72\, 53 (2018).
URL:https://tqmatter.org/event/colloqium-david-cassidy-recent-experimental-progress-in-positronium-laser-physics/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191107T140000
DTEND;TZID=Europe/Stockholm:20191107T150000
DTSTAMP:20260501T181307
CREATED:20191106T115507Z
LAST-MODIFIED:20191106T115507Z
UID:1584-1573135200-1573138800@tqmatter.org
SUMMARY:Whiteboard discussion - Dirac Materials group & Xiao-Jia
DESCRIPTION:
URL:https://tqmatter.org/event/whiteboard-discussion-dirac-materials-group-xiao-jia/
CATEGORIES:Meeting
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191106T103000
DTEND;TZID=Europe/Stockholm:20191106T120000
DTSTAMP:20260501T181307
CREATED:20191104T123221Z
LAST-MODIFIED:20191104T123221Z
UID:1578-1573036200-1573041600@tqmatter.org
SUMMARY:[CMT] Xiao-Jia Chen - Discovery of Superconductivity in Phenyl Molecules
DESCRIPTION:Speaker: Xiao-Jia Chen (Center for High-Pressure Science & Technology Advanced Research)\n \nTitle: Discovery of superconductivity in phenyl molecules\n \nTime: Wednesday 6th of November\, Fika 10:30-11:00 \, Seminar 11:00-12:00\, \n \nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nOrganic compounds are always promising candidates of superconductors with high transition temperatures Tc’s. In this talk\, we will first talk about our recent discovery of superconductivity with Tc’s as high as 123 K in polyparaphenylene oligomers. Then we will show the experimental realization of superconductivity in other phenyl molecules such as organometallic compounds or compounds only containing C\, H\, and N. The evidence of the appearance of superconductivity is provided by the observations of the measurements of the dc and ac magnetic susceptibility and resistivity measurements together with the opening of superconducting gap detected from Raman spectroscopy. The obtained superconducting parameters classify these phenyl molecules as type-II superconductors. The benzene ring is identified to be the essential superconducting unit in such phenyl compounds. The superconducting phases and their composition are determined by the combined studies of the X-ray diffraction and theoretical calculations as well as the Raman spectroscopy measurements. The easy processability\, light weight\, durability of plastics\, and environmental friendliness of these new phenyl superconductors have great potential for the fine-tuning of electrical properties. This discovery opens a window for exploring superconductivity in phenyl molecules.\n 
URL:https://tqmatter.org/event/cmt-xiao-jia-chen-discovery-of-superconductivity-in-phenyl-molecules/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191105T150000
DTEND;TZID=Europe/Stockholm:20191105T160000
DTSTAMP:20260501T181307
CREATED:20191104T123050Z
LAST-MODIFIED:20191104T123050Z
UID:1576-1572966000-1572969600@tqmatter.org
SUMMARY:Group Meeting
DESCRIPTION:
URL:https://tqmatter.org/event/group-meeting-6/
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191105T103000
DTEND;TZID=Europe/Stockholm:20191105T120000
DTSTAMP:20260501T181307
CREATED:20191104T122927Z
LAST-MODIFIED:20191104T122927Z
UID:1574-1572949800-1572955200@tqmatter.org
SUMMARY:[CMT] Sumanta Bandyopadhyay - Entangled Pauli Principles: the DNA of Quantum Hall Fluids
DESCRIPTION:Speaker: Sumanta Bandyopadhyay (NORDITA)\n \nTitle: Entangled Pauli Principles: the DNA of Quantum Hall Fluids\n \nTime: Tuesday 5th of November\, Fika 10:30-11:00 \, Seminar 11:00-12:00\, \n \nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nA formalism is developed for the rigorous study of solvable fractional quantum Hall parent Hamiltonians with Landau level mixing. The idea of organization through “generalized Pauli principles” is expanded to allow for root level entanglement\, giving rise to “entangled Pauli principles”. Through the latter\, aspects of the effective field theory description become ingrained in exact microscopic solutions for a great wealth of phases for which no similar single Landau level description is known. We discuss in detail braiding statistic\, edge theory\, emergent ground state symmetry and rigorous zero mode counting from a microscopic Hamiltonian in a strongly correlated system. We will further discuss the several other application of this methodology in finding parent Hamiltonian for composite fermion.\n \n 
URL:https://tqmatter.org/event/cmt-sumanta-bandyopadhyay-entangled-pauli-principles-the-dna-of-quantum-hall-fluids/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191029T103000
DTEND;TZID=Europe/Stockholm:20191029T120000
DTSTAMP:20260501T181307
CREATED:20191028T170614Z
LAST-MODIFIED:20191028T170614Z
UID:1556-1572345000-1572350400@tqmatter.org
SUMMARY:[CMT] Ilaria Maccari - Vortex physics in 2D disordered superconductors
DESCRIPTION:Speaker: Ilaria Maccari (KTH)\n \nTitle: Vortex physics in 2D disordered superconductors\n \nTime: Tuesday 29th of October\, Fika 10:30-11:00 \, Seminar 11:00-12:00\, \n \nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nThe  study of quasi-two-dimensional (2D) superconductors can hardly avoid to take into account the presence of vortices. Many real systems\, of both conventional and unconventional superconductors\,  undergoes the superconductor-insulator transition via the Brezinskii-Kosterlitz-Thouless (BKT) transition\, at which the phase coherence of the condensate is destroyed by means of free-vortices proliferation.\nWhen a finite flux of the magnetic field is applied to the films\, the role of vortices becomes even more crucial for the understanding of the superconducting (SC) transition. Indeed\, in this case\, the transition is no longer driven by the vortex-antivortex unbinding\, but rather by the melting of the 2D Abrikosov lattice of vortices. Such melting\, as predicted by the BKT  theory\, afterward refined  by  Halperin\, Nelson and Young (BKTHNY)\, can occur in two steps via an intermediate state called hexatic phase. In real systems\, the observation of the two-step BKTHNY melting could be hindered by the presence of additional ingredients\, such as random pinning\, and also competing phases. In [1]\, we have shown that the 2-dimensional vortex lattice in the a-MoGe thin films follows the BKTHNY sequence of melting as the magnetic field is increased. Identifying the signatures of various transitions on the bulk transport properties of the superconductor\, we construct a vortex phase diagram for a  2D  superconductor.  From a theoretical standpoint\,  the classical XY model with a transverse magnetic field is a very promising candidate to capture the physics experimentally observed and to explore stronger disorder regimes. It constitutes hence a perfect playground for the investigation of the long-standing issue of the emergent glassy-state of the vortex lattice in the presence of disorder.\n \n[1] I. Roy\, S. Dutta\, A. N. Roy Choudhury\, S. Basistha\, I. Maccari\, S. Mandal\, J. Jesudasan\, V.Bagwe\,  C.  Castellani\,  L.  Benfatto\,  P.  Raychaudhuri\,  Phys.  Rev.  Lett.  122  (4)\,  047001 (2019)\n 
URL:https://tqmatter.org/event/cmt-ilaria-maccari-vortex-physics-in-2d-disordered-superconductors/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191029T100000
DTEND;TZID=Europe/Stockholm:20191029T110000
DTSTAMP:20260501T181307
CREATED:20191028T170722Z
LAST-MODIFIED:20191028T170722Z
UID:1558-1572343200-1572346800@tqmatter.org
SUMMARY:Group Meeting
DESCRIPTION:
URL:https://tqmatter.org/event/group-meeting-5/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191025T100000
DTEND;TZID=Europe/Stockholm:20191025T170000
DTSTAMP:20260501T181307
CREATED:20191023T093713Z
LAST-MODIFIED:20191023T093713Z
UID:1551-1571997600-1572022800@tqmatter.org
SUMMARY:Nordita-KTH Applied Physics Annual Meeting 2019
DESCRIPTION:Webpage of event can be found here \nThis meeting is intended as a platform of discussion to set up collaborations on KAW (The Knut and Alice Wallenberg Foundation) and future projects. \nSchedule\nThe event will comprise of introductory talks on the theory and experimental side\, intended to last fifteen minutes and open to the floor for discussion for another fifteen minutes\, followed by lunch and discussion about overlap and potential collaborations. \nOn the theory side\nThe Dirac Materials group will ensure the main core skills of our expertise are showcased to the experimental participants or other theoretically-minded participants. \n\nHabib Rostami / Pavlo Sukhachov – Optics and strain effects in TMDs.\nDavid Carvalho – Light-Matter Interactions in Dirac Materials\nBart Olsthoorn – Machine Learning in Material Informatics and Spectroscopy\n\n\n12.30 – Lunch\n\nOn the experimental side\nTBC \n\nCollaboration and overlap discussions. (flexible timing)
URL:https://tqmatter.org/event/nordita-kth-applied-physics-annual-meeting-2019/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Meeting
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191015T150000
DTEND;TZID=Europe/Stockholm:20191015T160000
DTSTAMP:20260501T181307
CREATED:20191015T041816Z
LAST-MODIFIED:20191015T041816Z
UID:1497-1571151600-1571155200@tqmatter.org
SUMMARY:[Group Meeting]
DESCRIPTION:
URL:https://tqmatter.org/event/group-meeting-4/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191008T161500
DTEND;TZID=Europe/Stockholm:20191008T170000
DTSTAMP:20260501T181307
CREATED:20190925T180612Z
LAST-MODIFIED:20190925T180612Z
UID:1754-1570551300-1570554000@tqmatter.org
SUMMARY:[Group Meeting] Adrien Bouhon - Weyl Nodes with Non-Abelian Charges
DESCRIPTION:Abstract:\nWeyl points trapped within a C_2T-symmetric plane (C2 = 180 degrees rotation\, and T = time reversal) possess non-Abelian topological charges on top of their chirality. E.g. three-level systems realize the quaternion group. This picture requires to go beyond the modeling of a band structure as a Grassmannian (where a single spectral gap is specified). The non-Abelian nature of Weyl points implies new types of obstruction\, where\, for instance\, two Weyl points with opposite chiralities may not annihilate. Also\, the non-Abelian charges can be converted through the braiding of Weyl points in momentum space. \n \nI will review three different yet equivalent ways of computing the non-Abelian charges: (i) as a non-cyclic phase defined from the parallel transport of the Hamiltonian along a base loop\, (ii) as the Euler class of a two-band subspace over a patch bounded by the base loop\, and (iii) as the winding number of the Pfaffian of the Wilsonnian Hamiltonian – of the two-band subspace – as the base loop flows over the patch.  \n 
URL:https://tqmatter.org/event/group-meeting-adrien-bouhon-weyl-nodes-with-non-abelian-charges/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191008T150000
DTEND;TZID=Europe/Stockholm:20191008T160000
DTSTAMP:20260501T181307
CREATED:20191007T120227Z
LAST-MODIFIED:20191007T120227Z
UID:1402-1570546800-1570550400@tqmatter.org
SUMMARY:Nobel Prize Announcement - Colloquium
DESCRIPTION:Details: TBA \nhttps://www.kva.se/en/pressrum
URL:https://tqmatter.org/event/nobel-prize-announcement-colloquium/
LOCATION:Oskar Klein Auditorium\, Albanova Campus
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191008T103000
DTEND;TZID=Europe/Stockholm:20191008T120000
DTSTAMP:20260501T181307
CREATED:20191007T115850Z
LAST-MODIFIED:20191007T115850Z
UID:1399-1570530600-1570536000@tqmatter.org
SUMMARY:[CMT Seminar] Joe Bailey - Spin wave dynamics in ultrathin yttriumiron garnet measured with x-ray microscopy
DESCRIPTION:Title: Spin wave dynamics in ultrathin yttriumiron garnet measured with x-ray microscopy \nSpeaker: Joe Bailey\, from the PSI (Switzerland) \nTime: 10:30-11am Fika / 11-12am Talk \nAbstract: Magnonics\, the study and development of devices utilising collective spin excitations\, is a rapidly growing field\, covering both fundamental topics (antiferromagnetism[1]\, quasiparticle condensates[2]) and technological applications (MRAM[3]\, spintronics[4]). Yttrium iron garnet (YIG) is a ferrimagnetic insulator with the lowest known magnon damping factor of any material [5]. This low damping leads to a prevalence of nonlinear effects and notably the room temperature Bose-Einstein condensation (BEC) of magnons first reported by Demokritov et al in 2006[6]\, and subject of a number of investigations since[7]-[10]. Ultrathin structures will be required for applications butremainlargelyunexplored. Here I report on the design\, fabrication and characterization of microwave devicesbased on such ultrathin structures(YIG thickness~100nm).The spin wavedynamics weremeasured using both Brillouin Light Scattering (BLS) and time resolved scanning transmission x-ray microscopy(TR-STXM)\, locked in phase with microwave stimulation of the devices.Anumber of milestonesare reached for our novel devices.First\, we have explicitly measuredthe spin wave dispersion in YIG[11]\, and demonstratedthe existence of the finite momentum minimum required for magnon BEC. Second\, the BLSdata demonstratethat the condensate exists in our samples. These results are a key development towards addingcondensate phenomena to the thin film magnonics toolbox.
URL:https://tqmatter.org/event/cmt-seminar-joe-bailey-spin-wave-dynamics-in-ultrathin-yttriumiron-garnet-measured-with-x-ray-microscopy/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20191007
DTEND;VALUE=DATE:20191008
DTSTAMP:20260501T181307
CREATED:20190903T081848Z
LAST-MODIFIED:20190903T081848Z
UID:1243-1570406400-1570492799@tqmatter.org
SUMMARY:[Seminar]  Vladimir Pudalov
DESCRIPTION:Condensed Matter Seminar Series \nSpeaker: Vladimir Pudalov\, Lebedev Physical Institute \nTitle:“Thermodynamics of the correlated 2D electron system: Entropy per electron and spin magnetization per electron” \n\nAbstract: In contrast to ubiquitous transport and optical measurements\, interpretation of thermodynamic data is straightforward and is often model independent. However\, due to the additive character of thermodynamic properties\, their measurements for 2D electron systems is rather challenging.  I shall report recent advancement in thermodynamic measurements  of the correlated 2D electron system. Particularly\, I focus on the derivatives of the chemical potential with respect to magnetic field and temperature. The former enables to determine spin magnetization per electron and the latter – entropy per electron.\nI shall briefly describe recent results obtained with these technique and their impact on the current understanding of the still debatable problem of the ground state(s) of strongly correlated two-dimensional electron systems. \n 
URL:https://tqmatter.org/event/seminar-vladimir-pudalov/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191002T103000
DTEND;TZID=Europe/Stockholm:20191002T120000
DTSTAMP:20260501T181307
CREATED:20190930T150627Z
LAST-MODIFIED:20190930T150627Z
UID:1375-1570012200-1570017600@tqmatter.org
SUMMARY:[CMT Seminar] Adrian Kantian/ Gunnar Bollmark - 1D electrons coupled to reservoirs: towards new systems of correlated quantum matter and novel devices
DESCRIPTION:Speaker: Adrian Kantian and Gunnar Bollmark (Uppsala University)\n \nTitle: 1-D electrons coupled to reservoirs: towards new systems of correlated quantum matter and novel devices.\n \nTime:  Wednesday\, 2nd of October\, Fika 10:30-11:00 \, Seminar 11:00-12:00\, \n \nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nCorrelated electrons are at the forefront of condensed matter theory. Interacting quasi-1D electrons have seen vast progress in analytical and numerical theory\, and thus in fundamental understanding and quantitative prediction. Yet\, in the 1D limit fluctuations preclude important technological use\, particularly of superconductors. In contrast\, high-Tc superconductors in 2D/3D are not precluded by fluctuations\, but lack a fundamental theory\, making prediction and engineering of their properties very difficult. In this talk we will present  work in progress on combining the advantages of 1D systems with those of higher-dimensional ones\, by advancing the theory of quasi-1D electrons coupled to an electron bath. We will focus on two aspects in particular:  (1) How to enable a new state of matter\, 1D electrons with true superconducting order\, by using fluctuations from a coherent electronic reservoir. (2) A new approach for the deliberate engineering of superconducting systems with properties computable\, and thus optimisable\, ab-initio\, i.e. from their microscopic properties. The use of hard-core bosons at this first stage allows us to rigorously validate our approach\, which yields insight into the physics of dimensional crossover in strongly correlated many-body systems.\n 
URL:https://tqmatter.org/event/cmt-seminar-adrian-kantian-gunnar-bollmark-1d-electrons-coupled-to-reservoirs-towards-new-systems-of-correlated-quantum-matter-and-novel-devices/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20191001T150000
DTEND;TZID=Europe/Stockholm:20191001T170000
DTSTAMP:20260501T181307
CREATED:20190930T112341Z
LAST-MODIFIED:20190930T112341Z
UID:1755-1569942000-1569949200@tqmatter.org
SUMMARY:[Group Meeting] Sahar Pakdel
DESCRIPTION:Sahar Pakdel\, Aarhus University (Denmark) \nTitle: Exploring 2D-materials in synergy with experimentalists!”.\n\nAbstract: I will be talking about my experience studying some 2D systems with experimentalists. Specifically I will stress what I consider as the need for flexibility in the theory side while working on systems that are measured at the same time\, in comparison with exploring well-presented data.
URL:https://tqmatter.org/event/group-meeting-sahar-pakdel/
CATEGORIES:Group Meetings,Talks
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190924T150000
DTEND;TZID=Europe/Stockholm:20190924T160000
DTSTAMP:20260501T181307
CREATED:20190923T174314Z
LAST-MODIFIED:20190923T174314Z
UID:1358-1569337200-1569340800@tqmatter.org
SUMMARY:[Group Meeting]  Johan Hellsvik - Impressions from the NNSP-SwedNess Neutron School 2019\, Tartu
DESCRIPTION:Talk by Johan Hellsvik. \nTitle: Impressions from the NNSP-SwedNess Neutron School 2019\, Tartu \nAbstract: The European Spallation Source (ESS) is under development and construction in Lund. The Swedish and international neutron community are running a number of activities and projects in connection to ESS. One such activity is the SwedNess graduate school in neutron scattering. I will give impressions from the NNSP-SwedNess Neutron Summer School 2019\, Tartu\, and highlight some of the ESS neutron instruments that will be used for condensed matter physics.
URL:https://tqmatter.org/event/group-meeting-johan-hellsvik-impressions-from-the-nnsp-swedness-neutron-school-2019-tartu/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190919T100000
DTEND;TZID=Europe/Stockholm:20190919T120000
DTSTAMP:20260501T181307
CREATED:20190916T100740Z
LAST-MODIFIED:20190916T100740Z
UID:1350-1568887200-1568894400@tqmatter.org
SUMMARY:Masters Thesis Defence - Roberto Díaz Pérez
DESCRIPTION:
URL:https://tqmatter.org/event/masters-thesis-defence-roberto-diaz-perez/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190917T103000
DTEND;TZID=Europe/Stockholm:20190917T120000
DTSTAMP:20260501T181307
CREATED:20190913T132550Z
LAST-MODIFIED:20190913T132550Z
UID:1345-1568716200-1568721600@tqmatter.org
SUMMARY:[CMT Seminar] Adrien Bouhon - Weyl nodes with non-Abelian charges
DESCRIPTION:Speaker: Adrien Bouhon from Nordita\n \nTitle: Weyl nodes with non-Abelian charges\n \nTime:  Tuesday\n17th of September\, Fika 10:30-11:00\, Seminar 11:00-12:00\, \n \nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nWeyl points trapped within a C_2T-symmetric plane (C2 = 180 degrees rotation\, and T = time reversal) possess non-Abelian topological charges on top of their chirality. E.g. three-level systems realize the quaternion group. This picture requires to go beyond the modeling of a band structure as a Grassmannian (where a single spectral gap is specified). The non-Abelian nature of Weyl points implies new types of obstruction\, where\, for instance\, two Weyl points with opposite chiralities may not annihilate. Also\, the non-Abelian charges can be converted through the braiding of Weyl points in momentum space. \n \nI will review three different yet equivalent ways of computing the non-Abelian charges: (i) as a non-cyclic phase defined from the parallel transport of the Hamiltonian along a base loop\, (ii) as the Euler class of a two-band subspace over a patch bounded by the base loop\, and (iii) as the winding number of the Pfaffian of the Wilsonnian Hamiltonian – of the two-band subspace – as the base loop flows over the patch.  \n \n[Remark: 50% of the material I will present is new as compared to the talk I gave at the Nordita workshop in beginning of August.]
URL:https://tqmatter.org/event/cmt-seminar-adrien-bouhon-weyl-nodes-with-non-abelian-charges/
CATEGORIES:Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190917T080000
DTEND;TZID=Europe/Stockholm:20190917T170000
DTSTAMP:20260501T181307
CREATED:20190910T092411Z
LAST-MODIFIED:20190910T092411Z
UID:1267-1568707200-1568739600@tqmatter.org
SUMMARY:[Group Meeting]
DESCRIPTION:
URL:https://tqmatter.org/event/group-meeting-3/
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190910T150000
DTEND;TZID=Europe/Stockholm:20190910T160000
DTSTAMP:20260501T181307
CREATED:20190903T151835Z
LAST-MODIFIED:20190903T151835Z
UID:1257-1568127600-1568131200@tqmatter.org
SUMMARY:[Group Meeting] Presentation by Roberto Díaz Pérez
DESCRIPTION:Title: Machine Learning in Matter at Different Scales
URL:https://tqmatter.org/event/group-meeting-presentation-by-roberto-diaz-perez/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190903T120000
DTEND;TZID=Europe/Stockholm:20190903T130000
DTSTAMP:20260501T181307
CREATED:20190830T143303Z
LAST-MODIFIED:20190830T143303Z
UID:1235-1567512000-1567515600@tqmatter.org
SUMMARY:[Talk] Manuel Simonato - On the Spectral Properties of Inhomogeneous Luttinger Liquids
DESCRIPTION:Speaker: Manuel Simonato \nTitle: On the spectral properties of inhomogeneous Luttinger liquids \nAbstract: The physics of one-dimensional systems of interacting fermions strongly differs from the picture offeredby Fermi liquid theory. The low-energy properties of metallic\, paramagnetic 1D Fermi systems arewell described by the Luttinger liquid (LL) theory. Among other properties\, the homogeneous LL isknown to exhibit power-law behaviour for various correlation functions. For spin rotational invariantmodels\, the exponents can be expressed in terms of a single parameterKρ\, which is known to benon-universal.The LL concept emerged in the study of homogeneous systems with periodic boundary condition(PBC). In these models thelocal spectral functionshows a power-law suppression at energies asymp-totically close to the chemical potentialμ. Theoretically\, this is very well understood and the exactLL parameterKρis known for a set of integrable models. In the last decades however\, the interestshifted towards the investigation of LLs with PBC including impurities. The fact that these systemshave been shown to scale to chains with open ends led to the study of several models where openboundary condition (OBC) are introduced. As the translational invariance is broken\, the exponent ofthe power-law suppression close to the boundary differs from the one in the bulk.The present work is devoted to the study of the local spectral function of two lattice models of LLswith open boundaries\, namely the spinless fermions model with nearest neighbour interaction and the1D Hubbard model\, with the methods of perturbation theory. It is demonstrated that many aspectsof the spectral properties can be understood within the HF theory. Despite what one usually readsabout one-dimensional interacting Fermi systems\,in the presence of the boundaryperturbation theoryis already capable of providing meaningful results. Concurrently\, this method also allows us to developan understanding of the dip appearing in the local spectral function at an energy different from thechemical potential.
URL:https://tqmatter.org/event/1235/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190903T110000
DTEND;TZID=Europe/Stockholm:20190903T120000
DTSTAMP:20260501T181307
CREATED:20190903T081516Z
LAST-MODIFIED:20190903T081516Z
UID:1240-1567508400-1567512000@tqmatter.org
SUMMARY:[CMT SEMINAR] Ipsita Mandal - Some aspects of correlated electrons
DESCRIPTION:Speaker: Ipsita Mandal \n\nAffiliation: University of Stavanger\,\n\n\nTitle: Some aspects of correlated electrons\,\n \nTime:  Fika 10:30-11:00 \, Seminar 11:00-12:00\,\nPlace: Nordita South\, room 112:028 .\n\nAbstract:\nIn this talk\, I am going to present exciting results from two of my ongoing/recent projects.\nFirst part:\nSpin-orbit coupling (SOC) assisted (spin j = 1/2) Mott insulators exhibiting bond-directional exchange interactions are expected to exhibit unconventional quantum magnetic phases like spin liquids [1\, 2] predicted by the Kitaev model\, dubbed as Kitaev spin liquid (KSL). The feature of a Kitaev material is that the Kitaev coupling is the dominant exchange coupling. Compounds like honeycomb iridates and α-RuCl_3 have been identified as candidate Kitaev materials. In the first part of my talk\, I will address the unresolved question whether α-RuCl_3 is actually a Kitaev material. If yes\, what is the value of the Kitaev coupling strength? If not\, what are the dominant terms in the effective spin Hamiltonian that can describe the system? We focus on the results from resonant torsion magnetometry experiments by Modic et al\, which they can measured the magnetotropic coefficient k\, when a magnetic field B is applied making angle θ with the c-axis of the crystal. Using a simple Hamiltonian with a dominant paramagnetic term\, we will show that we can fit the data obtained in the experiments.\n \nSecond part:\nIn sufficiently clean metals\, it is possible for electrons to collectively flow as a viscous fluid at finite temperature. These viscous effects have been predicted to give a notable magneto resistance\, but whether the magnetoresistance is positive or negative has been debated. We argue that regardless of the strength of inhomogeneity\, bulk magnetoresistance is always positive in the hydrodynamic regime.\n 
URL:https://tqmatter.org/event/cmt-seminar/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190903T100000
DTEND;TZID=Europe/Stockholm:20190903T110000
DTSTAMP:20260501T181307
CREATED:20190830T142740Z
LAST-MODIFIED:20190830T142740Z
UID:1233-1567504800-1567508400@tqmatter.org
SUMMARY:[Talk] Shota Kanasugi - Spin-orbit-coupled ferroelectric superconductivityand multiorbital effects in SrTiO3
DESCRIPTION:Speaker: Shota Kanasugi\nAffiliation: Kyoto University \nTitle: Spin-orbit-coupled ferroelectric superconductivityand multiorbital effects in SrTiO3 \nAbstract: A lot of exotic superconducting statesemerge close to other ordered phases\, such as anisotropic superconductivity in cuprates. Although previous studies have mainly focused on the superconductivityclose to magnetic instability\, the ferroelectric (FE) counterpart is recently receiving increased attention since such superconductivity was reported in doped SrTiO3(STO). STO is a unique compound which exhibits both quantum paraelectricity and superconductivity. The superconducting transition temperature is enhanced in the vicinity of the FE quantum critical point [1-4]. Moreover\, recent experiments suggest the coexistence ofsuperconductivity and ferroelectricity in doped STO [2]. These results imply a cooperative correlation between superconductivity and ferroelectricity against a long-held belief that they should be incompatible.In this talk\, we present that aFE-like polar inversion symmetry breaking order can be controlled by the superconductivityin spin-orbit coupled systems. We introduce a model of electron-lattice coupled two-dimensional superconductor\,in which the ferroelectricity-induced Rashba spin-orbit coupling [5]is included. It is shown that the FE superconductivity\,which is characterized by a FE structural transition in the superconducting state\,is realized through two different mechanisms [6]. First\, the FE superconducting state is stabilized by the Lifshitz transition of the Rashba split bandsin lowcarrier density regimes.Second\, the FE superconductingstate is stabilized under a Zeeman magnetic field\, thanksto the suppressionof the Pauli depairingeffect in the FE phase. Furthermore\, we show that the FE superconductivity in bulk STO is strongly affected by the multiorbital effectoft2gelectrons[7]. Then\, we predict a topologicalWeyl superconducting state in the FE superconducting phase of bulk STO. \nReferences\n[1] A. Stucky et al.\, Sci. Rep. 6\,37582 (2016).\n[2] C. W. Rischau et al.\, Nat. Phys. 13\, 643 (2017).\n[3] Y. Tomioka et al.\, Nat. Commun. 10\, 738 (2019).\n[4] K. Ahadi et al.\, Sci. Adv. 5\, eaaw0120 (2019).\n[5] G. Khalsa\, B. Lee\, and A. H. MacDonald\, Phys. Rev. B 88\, 041302 (2013).\n[6] S. Kanasugi and Y. Yanase\, Phys. Rev. B 98\, 024521 (2018).\n[7] S. Kanasugi and Y. Yanase\, arXiv: 1904.11113 (2019)
URL:https://tqmatter.org/event/talk-shota-kanasugi-spin-orbit-coupled-ferroelectric-superconductivityand-multiorbital-effects-in-srtio3/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;VALUE=DATE:20190902
DTEND;VALUE=DATE:20190903
DTSTAMP:20260501T181307
CREATED:20190830T141617Z
LAST-MODIFIED:20190830T141617Z
UID:1230-1567382400-1567468799@tqmatter.org
SUMMARY:Odd-Frequency Meeting in Uppsala
DESCRIPTION:
URL:https://tqmatter.org/event/odd-frequency-meeting-in-uppsala/
LOCATION:Uppsala University\, Uppsala\, Sweden
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190830T080000
DTEND;TZID=Europe/Stockholm:20190830T170000
DTSTAMP:20260501T181307
CREATED:20190830T141515Z
LAST-MODIFIED:20190830T141515Z
UID:1228-1567152000-1567184400@tqmatter.org
SUMMARY:Seminar - Markus Müller (PSI)
DESCRIPTION:Speaker: Markus Müller\nAffiliation: Paul Scherrer Institut (PSI) in Switzerland\n\n\nTitle: Coherent oscillators\, spectral hole-burning and emerging q-bits in rare earth magnets\n\n\n \nAbstract: Experiments in rare earth compounds\, such as LiHoYF4 and GGG (Gd-Ga-garnet)\, have demonstrated very long lived\, coherent quantum degrees of freedom with sharply defined excitation energies\, many orders of magnitude below the scale of typical magnetic interactions (exchange\, dipolar or hyperfine interactions)\, and with life times on the order of seconds.\nThe nature of these coherent entities in the midst of a solid state environment has remained a mystery for a long time. I will discuss their likely origin and argue that they arise from an intricate interplay between several nuclear and electronic spins\, and exist only in long lived states out of equilibrium. The sharpness of the excitations is protected by Anderson localization of composite objects\, with an unusual type of power law hopping. The emerging\, well isolated degrees of freedom may be promising candidates for magnetic qubits.\nTime permitting I will discuss ideas of how to realise quantum memories and gates based on electro-nuclear qubits in rare earth systems.\n\n 
URL:https://tqmatter.org/event/seminar-markus-muller-psi/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190212T150000
DTEND;TZID=Europe/Stockholm:20190212T161500
DTSTAMP:20260501T181307
CREATED:20190205T194233Z
LAST-MODIFIED:20190205T194233Z
UID:839-1549983600-1549988100@tqmatter.org
SUMMARY:Group Meeting
DESCRIPTION:Presentation by Valera Kozin\, a visiting PhD student (profile here)\n\nTitle: “Multiply-connected nanostructures in the regime of strong light-matter coupling. Self-organizing maps as a method for detecting phase transitions”. \nAbstract:\nIt is demonstrated that the dressing field drastically modifies all electronic characteristics of the quantum rings\, including spin-orbit coupling\, effective electron mass\, and optical response. \nThe Chern insulator phase is shown to emerge in two-dimensional arrays of polariton rings where the time-reversal symmetry is broken due to the application of an out-of-plane magnetic field. \nWe employ a specific unsupervised machine learning technique—self-organizing maps—to create a low-dimensional representation of microscopic states\, relevant for macroscopic phase identification and detecting phase transitions. We explore the properties of spin Hamiltonians of two archetype model systems: a two-dimensional Heisenberg ferromagnet and a three-dimensional crystal\, Fe in the body-centered-cubic structure. The method of self-organizing maps\, which is known to conserve connectivity of the initial dataset\, is compared to the cumulant method theory and is shown to be as accurate while being computationally more efficient in determining a phase transition temperature. \n\nSlot for APS March Meeting still available.  Contact David for booking.
URL:https://tqmatter.org/event/group-meeting-2/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Stockholm:20190205T150000
DTEND;TZID=Europe/Stockholm:20190205T161500
DTSTAMP:20260501T181307
CREATED:20190205T193544Z
LAST-MODIFIED:20190205T193544Z
UID:836-1549378800-1549383300@tqmatter.org
SUMMARY:Group Meeting
DESCRIPTION:
URL:https://tqmatter.org/event/group-meeting/
LOCATION:NORDITA // South  (Meeting Room 112.006B)\, Roslagstullsbacken 23\, Stockholm\, 106 91\, Sweden
CATEGORIES:Group Meetings
END:VEVENT
END:VCALENDAR