Publications

Researcher ID: AAK-8945-2020, opens an external URL in a new window

ORCID: 0000-0001-9428-5083, opens an external URL in a new window

*Asterisk indicates equal contribution.

51.	High thermoelectric power factor through topological flat bands, F. Garmroudi, I. Serhiienko, S. Di Cataldo, M. Parzer, A. Riss, M. Grasser, S. Stockinger, S. Khmelevskyi, K. Pryga, B. Wiendlocha, K. Held, T. Mori, E. Bauer, and A. Pustogow arXiv:2404.08067, opens an external URL in a new window.
50.	SrCu(OH)₃Cl, an ideal isolated equilateral triangle spin S = 1/2 model system, S. Pal, P. Dolezal, S. A. Strøm, S. Bertaina, A. Pustogow, R. K. Kremer, M. Dressel, and P. Puphal arXiv:2401.12098, opens an external URL in a new window.
49.	Thermoelectric power factor of composites, A. Riss, F. Garmroudi, M. Parzer, A. Pustogow, T. Mori, and E. Bauer Phys. Rev. Applied 21, 014002 (2024). DOI:10.1103/PhysRevApplied.21.014002 , opens an external URL in a new window.
2023
48.	Controlling frustrated magnetism on the kagome lattice by uniaxial-strain tuning, Jierong Wang, M. Spitaler, Y.-S. Su, K.M. Zoch, C. Krellner, P. Puphal, S.E. Brown, and A. Pustogow Phys. Rev. Lett. 131, 256501 (2023), DOI:10.1103/PhysRevLett.131.256501 , opens an external URL in a new window, arXiv:2209.08613, opens an external URL in a new window. Press Release of TU Wien: *Unkonventionelle Magnete: Stress reduziert Frustration, opens an external URL in a new window (English version: Unconventional magnets: stress reduces frustration*, opens an external URL in a new window)
47.	High thermoelectric performance in metallic NiAu alloys via interband scattering, F. Garmroudi, M. Parzer, A. Riss, C. Bourgès, S. Khmelevskyi, T. Mori, E. Bauer, and A. Pustogow Sci. Adv. 9, eadj1611 (2023), DOI:10.1126/sciadv.adj1611 , opens an external URL in a new window, arXiv:2303.03062, opens an external URL in a new window. Press Release of TU Wien: *Goldene Aussichten für Thermoelektrika, opens an external URL in a new window (English version: Golden future for thermoelectrics, opens an external URL in a new window) Article in Die Presse: Klimanews: Strom aus Wärme gewinnen, opens an external URL in a new window Article in Österreich Journal: Goldene Aussichten für Thermoelektrika* (Nr. 208, page 115), opens an external URL in a new window Article in Kurier: *Gold und Nickel machen aus Wärme Strom*, opens an external URL in a new window (Print Version 06 October 2023, page 22)
46.	Negative Magnetoresistance Near the Mott Metal-Insulator Transition in the Quantum Spin Liquid Candidate κ-(BEDT-TTF)₂Cu₂(CN)₃, Y. Kawasugi, S. Yamazaki, A. Pustogow, and N. Tajima J. Phys. Soc. Jpn. 92, 065001 (2023), DOI:10.7566/JPSJ.92.065001, opens an external URL in a new window.
45.	Chasing the spin gap through the phase diagram of a frustrated Mott insulator, A. Pustogow, Y. Kawasugi, H. Sakurakoji, and N. Tajima Nat. Commun. 14, 1960 (2023), DOI:10.1038/s41467-023-37491-z, opens an external URL in a new window. Press Release of TU Wien: *Die Quantenspinflüssigkeit, die gar keine ist, opens an external URL in a new window (English version: The quantum spin liquid that isn't one*, opens an external URL in a new window)
44.	From spin liquid to magnetic ordering in the anisotropic kagome Y-Kapellasite Y₃Cu₉(OH)₁₉Cl₈: a single crystal study, D. Chatterjee, P. Puphal, Q. Barthélemy, J. Willwater, S. Süllow, C. Baines, S. Petit, E. Ressouche, J. Ollivier, K.M. Zoch, C. Krellner, M. Parzer, A. Riss, F. Garmroudi, A. Pustogow, P. Mendels, E. Kermarrec, and F. Bert Phys. Rev. B 107, 125156 (2023) [Editors’ Suggestion], DOI:10.1103/PhysRevB.107.125156 , opens an external URL in a new window, arXiv:2211.16624, opens an external URL in a new window.
43.	Upper Critical Field of Sr₂RuO₄ under In-Plane Uniaxial Pressure, F. Jerzembeck, A. Steppke, A. Pustogow, Y. Luo, A. Chronister, D. A. Sokolov, N. Kikugawa, Y.-S. Li, M. Nicklas, S. E. Brown, A. P. Mackenzie, and C. W. Hicks Phys. Rev. B 107, 064509 (2023), DOI:10.1103/PhysRevB.107.064509 , opens an external URL in a new window, arXiv:2211.04290, opens an external URL in a new window.
42.	Pivotal role of carrier scattering for semiconductorlike transport in Fe₂VAl, F. Garmroudi, M. Parzer, A. Riss, A. Pustogow, T. Mori, and E. Bauer Phys. Rev. B 107, L081108 (2023). DOI:10.1103/PhysRevB.107.L081108, opens an external URL in a new window.
41.	Pressure-dependent dielectric response of the frustrated Mott insulator κ-(BEDT-TTF)₂Ag₂(CN)₃, R. Rösslhuber, R. Hübner, M. Dressel, and A. Pustogow Phys. Rev. B 107, 075113 (2023). DOI:10.1103/PhysRevB.107.075113, opens an external URL in a new window.
40.	Thermodynamic Properties of the Mott Insulator-Metal Transition in a Triangular Lattice System Without Magnetic Order, E. Yesil, S. Imajo, S. Yamashita, H. Akutsu, Y. Saito, A. Pustogow, A. Kawamoto, and Y. Nakazawa Phys. Rev. B 107, 045133 (2023). DOI:10.1103/PhysRevB.107.045133, opens an external URL in a new window, arXiv:2301.04310, opens an external URL in a new window.
2022
--	New Spin on Metal-Insulator Transitions, Guest Editor: A. Pustogow Special Issue in Crystals (MDPI), opens an external URL in a new window, submission deadline 20 April 2022.
39.	New Spin on Metal-Insulator Transitions, A. Pustogow Crystals 13, 64 (2023), DOI:10.3390/cryst13010064, opens an external URL in a new window. Editorial of the Special Issue "New Spin on Metal-Insulator Transitions" in Crystals (MDPI), opens an external URL in a new window
38.	Tuning the Fermi liquid crossover in Sr₂RuO₄ with uniaxial stress, A. Chronister, M. Zingl, A. Pustogow, Y. Luo, D. A. Sokolov, N. Kikugawa, C. W. Hicks, F. Jerzembeck, J. Mravlje, E. D. Bauer, A. P. Mackenzie, A. Georges, and S. E. Brown npj Quantum Mater. 7, 113 (2022), DOI:10.1038/s41535-022-00519-6, opens an external URL in a new window, arXiv:2111.05570, opens an external URL in a new window.
37.	Anderson transition in stoichiometric Fe₂VAl: High thermoelectric performance from impurity bands, F. Garmroudi, M. Parzer, A. Riss, A. V. Ruban, S. Khmelevskyi, M. Reticcioli, M. Knopf, H. Michor, A. Pustogow, T. Mori, and E. Bauer Nat. Commun. 13, 3599 (2022), DOI:10.1038/s41467-022-31159-w, opens an external URL in a new window.
36.	Multi-Center Magnon Excitations Open the Entire Brillouin Zone to Terahertz Magnetometry of Quantum Magnets, T. Biesner, S. Roh, A. Razpopov, J. Willwater, S. Süllow, Y. Li, K. M. Zoch, M. Medarde, J. Nuss, D. Gorbunov, Y. Skourski, A. Pustogow, S. E. Brown, C. Krellner, R. Valentí, P. Puphal, and M. Dressel Adv. Quantum Technol. 2022, 2200023 (2022), DOI:10.1002/qute.202200023, opens an external URL in a new window.
35.	Magnetic terahertz resonances above the Neel temperature in the frustrated kagome antiferromagnet averievite, T. Biesner, S. Roh, A. Pustogow, H. Zheng, J. F. Mitchell, and M. Dressel Phys. Rev. B 105, L060410 (2022), DOI:10.1103/PhysRevB.105.L060410, opens an external URL in a new window.
34.	Review Article: Thirty-Year Anniversary of κ-(BEDT-TTF)₂Cu₂(CN)₃: Reconciling the Spin Gap in a Spin-Liquid Candidate, A. Pustogow Solids 3, 93–110 (2022), DOI:10.3390/solids3010007, opens an external URL in a new window.
2021
33.	Tuning Charge Order in (TMTTF)₂X by Partial Anion Substitution, A. Pustogow, D. Dizdarevic, S. Erfort, O. Iakutkina, V. Merkl, G. Untereiner, and M. Dressel Crystals 11, 1545 (2021), DOI:10.3390/cryst11121545, opens an external URL in a new window. Published in the Special Issue "New Spin on Metal-Insulator Transitions", opens an external URL in a new window
32.	Pressure-Tuned Superconducting Dome in Chemically-Substituted κ-(BEDT-TTF)₂Cu₂(CN)₃, Y. Saito, A. Löhle, A. Kawamoto, A. Pustogow, and M. Dressel Crystals 11, 817 (2021), DOI:10.3390/cryst11070817, opens an external URL in a new window.
31.	Evidence for even parity unconventional superconductivity in Sr₂RuO₄, A. Chronister, A. Pustogow, N. Kikugawa, D. A. Sokolov, F. Jerzembeck, C. W. Hicks, A. P. Mackenzie, E. D. Bauer and S. E. Brown Proc. Natl. Acad. Sci. 118, e2025313118 (2021), DOI:10.1073/pnas.2025313118, opens an external URL in a new window, arXiv:2007.13730, opens an external URL in a new window. See also: An unconventional superconductor isn't so odd after all, A. Lopatka, Physics Today 74, 9, 14-16 (2021), opens an external URL in a new window Recent Highlights: Tipping point of triplet pairing, opens an external URL in a new window Press Release of TU Wien: *Exotische Supraleiter: Das Geheimnis, das keines ist, opens an external URL in a new window (English version: Exotic superconductors: The Secret that wasn’t there, opens an external URL in a new window) Article on ORF.at: „Exotische“ Supraleitung doch gewöhnlich, opens an external URL in a new window Article in Wiener Zeitung: Exotische Supraleiter: Das Geheimnis, das keines ist*, opens an external URL in a new window
30.	Chemical tuning of molecular quantum materials κ-[(BEDT-TTF)_1-x(BEDT-STF)_x]₂Cu₂(CN)₃: from the Mott-insulating quantum spin liquid to metallic Fermi liquid, Y. Saito, R. Rösslhuber, A. Löhle, M. Sanz Alonso, M. Wenzel, A. Kawamoto, A. Pustogow, and M. Dressel, Journal of Materials Chemistry C 9, 10841-10850 (2021), DOI:10.1039/D1TC00785H, opens an external URL in a new window, arXiv:1911.06766, opens an external URL in a new window.
29.	Gapped magnetic ground state in quantum-spin-liquid candidate κ-(BEDT-TTF)₂Cu₂(CN)₃, B. Miksch, A. Pustogow, M. Javaheri Rahim, A. A. Bardin, K. Kanoda, J. A. Schlueter, R. Hübner, M. Scheffler, and M. Dressel Science 372, 276-279 (2021), DOI:10.1126/science.abc6363, opens an external URL in a new window, arXiv:2010.16155, opens an external URL in a new window. See also: Recent Highlights: No metal without charge, opens an external URL in a new window Press Release of TU Wien: *Neue Messungen stellen Spin-Flüssigkeiten in Frage, opens an external URL in a new window (English version: New measurements call spin liquids into question, opens an external URL in a new window) Press Release of Universität Stuttgart: Quantenspins: Und sie paaren sich doch!, opens an external URL in a new window (English version: Quantum Spins: And yet they pair!, opens an external URL in a new window) Article in The Academic Times: Two-decade disagreement on quantum spin liquids put to rest with new findings, opens an external URL in a new window Article in Physics World: Promising quantum spin liquid candidate may fall short*, opens an external URL in a new window
28.	Rise and fall of Landau’s quasiparticles while approaching the Mott transition, A. Pustogow, Y. Saito, A. Löhle, M. Sanz Alonso, A. Kawamoto, V. Dobrosavljević, M. Dressel, and S. Fratini Nat. Commun. 12, 1571 (2021), DOI:10.1038/s41467-021-21741-z, opens an external URL in a new window, arXiv:2101.07201, opens an external URL in a new window. See also: Recent Highlights: How do good metals turn bad?, opens an external URL in a new window Press Release of TU Wien: *Wie werden gute Metalle schlecht?, opens an external URL in a new window (English version; How do good metals go bad?, opens an external URL in a new window) Article in Physics World: Bad metals turn over a new leaf, opens an external URL in a new window Coverage in public media: Der Standard*, opens an external URL in a new window
27.	Phase coexistence at the first-order Mott transition revealed by pressure-dependent dielectric spectroscopy of κ-(BEDT-TTF)₂Cu₂(CN)₃, R. Rösslhuber, A. Pustogow, E. Uykur, A. Böhme, A. Löhle, R. Hübner, J. A. Schlueter, Y. Tan, V. Dobrosavljević, and M. Dressel Phys. Rev. B 103, 125111 (2021), DOI:10.1103/PhysRevB.103.125111, opens an external URL in a new window, arXiv:1911.12273, opens an external URL in a new window.
26.	Low-Temperature Dielectric Anomalies at the Mott Insulator-Metal Transition, A. Pustogow, R. Rösslhuber, Y. Tan, E. Uykur, M. Wenzel, A. Böhme, A. Löhle, R. Hübner, Y. Saito, A. Kawamoto, J. A. Schlueter, V. Dobrosavljević, and M. Dressel npj Quantum Mater.* 6, 9 (2021), DOI:10.1038/s41535-020-00307-0, opens an external URL in a new window, arXiv:1907.04437, opens an external URL in a new window.
2020
25.	Disorder and Slowing Magnetic Dynamics in κ-(BEDT-TTF)₂Hg(SCN)₂Br, T. Le, A. Pustogow, Jierong Wang, A. Henderson, J. A. Schlueter, and S. E. Brown Phys. Rev. B 102, 184417 (2020), DOI:10.1103/PhysRevB.102.184417, opens an external URL in a new window.
24.	Lattice dynamics in the spin-1/2 frustrated kagome compound herbertsmithite, Ying Li, A. Pustogow, M. Bories, P. Puphal, C. Krellner, M. Dressel, and R. Valentí Phys. Rev. B 101, 161115(R) (2020) [Editors’ Suggestion], DOI:10.1103/PhysRevB.101.161115, opens an external URL in a new window, arXiv:2002.04042, opens an external URL in a new window.
23.	Impurity Moments Conceal Low-Energy Relaxation of Quantum Spin Liquids, A. Pustogow, T. Le, H.-H. Wang, Y. Luo, E. Gati, H. Schubert, M. Lang, and S. E. Brown Phys. Rev. B 101, 140401(R) (2020), DOI:10.1103/PhysRevB.101.140401, opens an external URL in a new window, arXiv:1911.02057, opens an external URL in a new window.
2019
22.	Constraints on the superconducting order parameter in Sr₂RuO₄ from oxygen-17 nuclear magnetic resonance, A. Pustogow, Y. Luo, A. Chronister, Y.-S. Su, D. A. Sokolov, F. Jerzembeck, A. P. Mackenzie, C. W. Hicks, N. Kikugawa, S. Raghu, E. D. Bauer, and S. E. Brown Nature 574, 72–75 (2019), DOI:10.1038/s41586-019-1596-2, opens an external URL in a new window, arXiv:1904.00047, opens an external URL in a new window. See also: Triplet no more, D. Abergel, Nat. Phys. 15, 1105 (2019), opens an external URL in a new window Solving a Puzzle of Unconventional Superconductivity, opens an external URL in a new window Rewriting the story of unconventional superconductivity of Sr₂RuO₄: twenty year old result overturned, opens an external URL in a new window
21.	Normal state ¹⁷O NMR studies of Sr₂RuO₄ under uniaxial stress, Y. Luo, A. Pustogow, P. Guzman, A. P. Dioguardi, S. M. Thomas, F. Ronning, N. Kikugawa, D. A. Sokolov, F. Jerzembeck, A. P. Mackenzie, C.W. Hicks, E. D. Bauer, I. I. Mazin, and S. E. Brown Phys. Rev. X 9, 021044 (2019), DOI:10.1103/PhysRevX.9.021044, opens an external URL in a new window, arXiv:1810.01209, opens an external URL in a new window.
20.	Charge order in β″-phase BEDT-TTF salts, A. Pustogow, K. Treptow, A. Rohwer, Y. Saito, M. Sanz Alonso, A. Löhle, J. A. Schlueter, and M. Dressel Phys. Rev. B 99, 155144 (2019), DOI:10.1103/PhysRevB.99.155144, opens an external URL in a new window.
19.	Coexistence of charge order and superconductivity in β″-(BEDT-TTF)₂SF₅CH₂CF₂SO₃, A. Pustogow, Y. Saito, A. Rohwer, J. A. Schlueter, and M. Dressel Phys. Rev. B 99, 140509(R) (2019), DOI:10.1103/PhysRevB.99.140509, opens an external URL in a new window.
18.	Transition of a pristine Mott insulator to a correlated Fermi liquid: Pressure-dependent optical investigations of a quantum spin liquid, W. Li, A. Pustogow, R. Kato, and M. Dressel Phys. Rev. B 99, 115137 (2019), DOI:10.1103/PhysRevB.99.115137, opens an external URL in a new window, arXiv:1901.11280, opens an external URL in a new window.
17.	Tuning of a Kagome Magnet: Insulating Ground State in Ga-Substituted Cu₄(OH)₆Cl₂, P. Puphal, K. M. Ranjith, A. Pustogow, M. Müller, A. Rogalev, K. Kummer, J.-C. Orain, C. Baines, M. Baenitz, M. Dressel, E. Kermarrec, F. Bert, P. Mendels, and C. Krellner Phys. Status Solidi B 2019, 1800663 (2019), DOI:10.1002/pssb.201800663, opens an external URL in a new window, arXiv:1811.02462, opens an external URL in a new window.
2018
16.	Internal strain tunes electronic correlations on the nanoscale, A. Pustogow, A. S. McLeod, Y. Saito, D. N. Basov and M. Dressel Sci. Adv. 4, eaau9123 (2018), DOI:10.1126/sciadv.aau9123, opens an external URL in a new window. See also: Beim Phasenübergang benutzen die Elektronen den Zebrastreifen, opens an external URL in a new window
15.	Weak ferromagnetism and glassy state in κ-(BEDT-TTF)₂Hg(SCN)₂Br, M. Hemmida, H.-A. K. von Nidda, B. Miksch, L. L. Samoilenko, A. Pustogow, S. Widmann, A. Henderson, T. Siegrist, J. A. Schlueter, A. Loidl, and M. Dressel Phys. Rev. B 98, 241202(R) (2018), DOI:10.1103/PhysRevB.98.241202, opens an external URL in a new window, arXiv:1710.04028, opens an external URL in a new window.
14.	Quantum Spin Liquids Unveil the Genuine Mott State, A. Pustogow, M. Bories, A. Löhle, R. Rösslhuber, E. Zhukova, B. Gorshunov, S. Tomić, J. A. Schlueter, R. Hübner, T. Hiramatsu, Y. Yoshida, G. Saito, R. Kato, T.-H. Lee, V. Dobrosavljević, S. Fratini, and M. Dressel Nat. Mater. 17, 773-777 (2018), DOI:10.1038/s41563-018-0140-3, opens an external URL in a new window, arXiv:1710.07241, opens an external URL in a new window. See also: Physiker der Universität Stuttgart erforschen Mott-Isolatoren: Wenn der elektrische Strom stecken bleibt, opens an external URL in a new window
13.	Low-Energy Excitations in Quantum Spin Liquids Identified by Optical Spectroscopy, A. Pustogow, Y. Saito, E. Zhukova, B. Gorshunov, R. Kato, T.-H. Lee, S. Fratini, V. Dobrosavljević, and M. Dressel Phys. Rev. Lett. 121, 056402 (2018), DOI:10.1103/PhysRevLett.121.056402, opens an external URL in a new window, arXiv:1803.01553, opens an external URL in a new window.
12.	Detuning the honeycomb of α-RuCl₃: Pressure-dependent optical studies reveal broken symmetry, T. Biesner, S. Biswas, W. Li, Y. Saito, A. Pustogow, M. Altmeyer, A. U. B. Wolter, B. Büchner, M. Roslova, T. Doert, S. M. Winter, R. Valentí, and M. Dressel Phys. Rev. B 97, 220401(R) (2018), DOI:10.1103/PhysRevB.97.220401, opens an external URL in a new window, arXiv:1802.10060, opens an external URL in a new window.
11.	Importance of van der Waals interactions and cation-anion coupling in an organic quantum spin liquid, P. Lazić, M. Pinterić, D. Rivas Góngora, A. Pustogow, K. Treptow, T. Ivek, O. Milat, B. Gumhalter, N. Doslić, M. Dressel, and S. Tomić Phys. Rev. B 97, 245134 (2018), DOI:10.1103/PhysRevB.97.245134, opens an external URL in a new window, arXiv:1710.01942, opens an external URL in a new window.
10.	Electrodynamics in Organic Dimer Insulators Close to Mott Critical Point, M. Pinterić, D. Rivas Góngora, Z. Rapljenović, T. Ivek, M. Culo, B. Korin-Hamzić, O. Milat, B. Gumhalter, P. Lazić, M. Sanz Alonso, W. Li, A. Pustogow, G. Gorgen Lesseux, M. Dressel, and S. Tomić Crystals 8, 190 (2018), DOI:10.3390/cryst8050190, opens an external URL in a new window.
9.	Electrodynamics of quantum spin liquids, M. Dressel and A. Pustogow J. Phys.: Condens. Matter 30, 203001 (2018), DOI:10.1088/1361-648X/aabc1f, opens an external URL in a new window, arXiv:1804.10702, opens an external URL in a new window.
8.	Structural and Electronic Properties of (TMTTF)₂X Salts with Tetrahedral Anions, R. Rösslhuber, E. Rose, T. Ivek, A. Pustogow, T. Breier, M. Geiger, K. Schrem, G. Untereiner and M. Dressel Crystals 8, 121 (2018), DOI:10.3390/cryst8030121, opens an external URL in a new window.
2017
7.	Nature of optical excitations in the frustrated kagome compound Herbertsmithite, A. Pustogow, Ying Li, I. Voloshenko, P. Puphal, C. Krellner, I. I. Mazin, M. Dressel, and R. Valentí Phys. Rev. B 96, 241114(R) (2017), DOI:10.1103/PhysRevB.96.241114, opens an external URL in a new window, arXiv:1711.11340, opens an external URL in a new window.
6.	Strong magnetic frustration in Y₃Cu₉(OH)₁₉Cl₈: a distorted kagome antiferromagnet, P. Puphal, M. Bolte, D. Sheptyakov, A. Pustogow, K. Kliemt, M. Dressel, M. Baenitz, and C. Krellner J. Mater. Chem. C 5, 2629 (2017), DOI:10.1039/C6TC05110C, opens an external URL in a new window, arXiv:1702.01036, opens an external URL in a new window.
5.	Raman spectroscopy evidence of domain walls in the organic electronic ferroelectrics (TMTTF)₂X (X=SbF₆,AsF₆,PF₆), R. Swietlik, B. Barszcz, A. Pustogow, and M. Dressel Phys. Rev. B 95, 085205 (2017), DOI:10.1103/PhysRevB.95.085205, opens an external URL in a new window.
4.	Pressure-dependent optical investigations of Fabre salts in the charge-ordered state, I. Voloshenko, M. Herter, R. Beyer, A. Pustogow and M. Dressel J. Phys.: Condens. Matter 29, 115601 (2017), DOI:10.1088/1361-648x/aa579c, opens an external URL in a new window.
2016
3.	Electronic correlations versus lattice interactions: Interplay of charge and anion orders in (TMTTF)₂X, A. Pustogow, T. Peterseim, S. Kolatschek, L. Engel, and M. Dressel Phys. Rev. B 94, 195125 (2016), DOI:10.1103/PhysRevB.94.195125, opens an external URL in a new window.
2.	Anion effects on electronic structure and electrodynamic properties of the Mott insulator κ-(BEDT-TTF)₂Ag₂(CN)₃, M. Pinterić, P. Lazić, A. Pustogow, T. Ivek, M. Kuvezdić, O. Milat, B. Gumhalter, M. Basletic, M. Culo, B. Korin-Hamzić, A. Löhle, R. Hübner, M. Sanz Alonso, T. Hiramatsu, Y. Yoshida, G. Saito, M. Dressel, and S. Tomić Phys. Rev. B 94, 161105(R) (2016), DOI:10.1103/PhysRevB.94.161105, opens an external URL in a new window, arXiv:1607.07596, opens an external URL in a new window.
1.	Lattice vibrations of the charge-transfer salt κ-(BEDT-TTF)₂Cu₂(CN)₃: Comprehensive explanation of the electrodynamic response in a spin-liquid compound, M. Dressel, P. Lazić, A. Pustogow, E. Zhukova, B. Gorshunov, J. A. Schlueter, O. Milat, B. Gumhalter, and S. Tomić Phys. Rev. B 93, 081201(R) (2016), DOI:10.1103/PhysRevB.93.081201, opens an external URL in a new window, arXiv:1601.04926, opens an external URL in a new window.

Group of

Andrej Pustogow

Telefon: +43 1 58801 13128

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Group of

Andrej Pustogow

Telefon: +43 1 58801 13128

Raum: DC 06 J22, opens an external URL in a new window, opens an external URL in a new window

E-Mail

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_pk_ref	Is used to store the information of the users home website.	6 months	HTML	Matomo TU Wien
_pk_ses	Is needed to store temporary data of the visit.	30 minutes	HTML	Matomo TU Wien
nmstat	Is used to record the behaviour on the website. It is used to collect statistics about website usage, such as when the visitor last visited the website. The cookie does not contain any personal data and is only used for website analysis.	1000 days	HTML	Siteimprove
siteimproveses	Is used to track the sequence of pages that a visitor views during his/her visit to the website. The cookie does not contain any personal data and is used solely for website analysis.	session	HTTP	Siteimprove
AWSELB	Always occurs in pairs with siteimproveses (for load balancing on the provider server)	session	HTTP	Siteimprove

Name	Purpose	Lifetime	Type	Provider
_ga	Is needed to distinguish the sessions of the users from each other.	persistent	HTTP	Google Analytics
_gali	Is needed to determine which links are clicked on a page.	expires immediately	HTTP	Google Analytics
_gat	This is a function-related cookie, whose tasks may differ.	2 years	HTTP	Google Analytics
_gid	Is needed to distinguish users and create statistics.	24 hours	HTTP	Google Analytics
_gads	Required to enable websites to display advertising from Google, including personalized advertising.	13 months	HTTP	Google Analytics
_gac_	Required by advertisers to measure user activity and the performance of their advertising campaigns.	90 days	HTTP	Google Analytics
_gcl_	Required by advertisers to determine how often users who click on their ads end up taking an action on their website.	90 days	HTTP	Google Analytics
_gcl_au	Contains a randomly generated user ID.	90 days	HTTP	Google
_gcl_aw	Is set when users click on a Google ad on the website and contains information about which ad was clicked.	90 days	HTTP	Google
__utma	Is used to record visits and visitors.	2 years	HTTP	Google Analytics
__utmb	Is used to detect new visits.	30 minutes	HTTP	Google Analytics
__utmc	Is used in connection with __utmb to determine whether it is a new (recent) visit.	session	HTTP	Google Analytics
__utmd	Is used to store and track visitor journeys through the site and classifies them into groups (marketing/tracking).	1 second	HTTP	Google Analytics
__utmt	Is needed to limit the query rate on Google Analytics.	10 minutes	HTTP	Google Analytics
__utmz	Is needed to determine from which source/campaign visitors come.	6 months	HTTP	Google Analytics
__utmvc	Is needed to collect information about user behavior on multiple websites. This information is used to optimize the relevance of advertising on the website.	24 hours	HTTP	Google AdSense
utm_source	Is needed to tag URLs with parameters to identify the campaigns that forward traffic.	expires immediately	HTTP	Google Analytics
__utm.gif	Is needed to save browser details.	session	HTTP	Google Analytics
gtag	Is needed to perform remarketing.	30 days	HTTP	Google AdSense
id	Is needed to perform remarketing.	2 years	HTTP	Google AdWords
1P_JAR	Is needed to optimize advertising, provide ads that are relevant to users, improve campaign performance reports, or prevent users from seeing the same ads more than once.	2 years	HTTP	Google
AID	Is needed to activate targeted advertising.	2 years	HTTP	Google Analytics
ANID	Is needed to display Google ads on non-Google websites.	2 years	HTTP	Google AdSense
APISID	Unknown functionality	2 years	HTTP	Google Ads Optimization
AR	Is needed to profile visitors' interests and display relevant ads on other websites. This cookie works by uniquely identifying your browser and device.	2 years	HTTP	Google AdSense
CONSENT	Is needed to store the preferences of visitors and personalize advertising.	persistent	HTTP	Google
DSID	Is needed by DoubleClick for advertising displayed in various places on the web and used to store the preferences of users.	2 years	HTTP	Doubleclick
DV	Is needed to store user preferences and other information. This includes, in particular, the preferred language, the number of search results to be displayed on the page, and the decision whether or not to activate the Google SafeSearch filter.	2 years	HTTP	Google
HSID	Contains the Google account ID and the last login time of the user.	2 years	HTTP	Google
IDE	Is needed by DoubleClick to record and report the actions of users on the website after viewing or clicking on one of the provider's ads, with the purpose of measuring the effectiveness of an advertisement and displaying targeted advertisements to users.	2 years	HTTP	Doubleclick
LOGIN_INFO	Is used to store the credentials of users of Google services.	2 years	HTTP	Google
NID	Is used to store information about user settings.	6 months	HTTP	Google
OTZ	Is needed to link activities of visitors with other devices that are previously logged in via the Google account. In this way, advertising is tailored to different devices.	1 month	HTTP	Google
RUL	Is needed by DoubleClick to determine whether advertising has been displayed correctly in order to make marketing activities more efficient.	1 year	HTTP	Doubleclick
SAPISID	Is needed by YouTube to store user settings and to calculate user bandwidth.	persistent	HTTP	Google
SEARCH_SAMESITE	Enables servers to mitigate the risk of CSRF and information leakage attacks by specifying that a particular cookie may only be sent on requests originating from the same registerable domain.	6 months	HTTP	Google
SID	Contains the Google account ID and the last login time of the user.	2 years	HTTP	Google
SIDCC	Is needed to store information about user settings and information for Google Maps.	3 months	HTTP	Google
SSID	Is needed to collect visitor information for videos hosted by YouTube on Google Maps integrated maps.	persistent	HTTP	Google
__SECURE-1PAPISID	Is needed for targeting purposes to create a profile of the interests of website visitors.	2 years	HTTP	Google
__SECURE-1PSID	Is needed for targeting purposes to create a profile of the interests of website visitors.	2 years	HTTP	Google
__SECURE-3PAPISID	Is needed for targeting purposes to create a profile of the interests of website visitors.	2 years	HTTP	Google
__SECURE-3PSID	Is needed for targeting purposes to create a profile of the interests of website visitors.	2 years	HTTP	Google
__SECURE-3PSIDCC	Is needed for targeting purposes to create a profile of the interests of website visitors.	2 years	HTTP	Google
__SECURE-APISID	Is needed to profile the interests of website visitors in order to display relevant and personalized advertising through retargeting.	8 months	HTTP	Google
__SECURE-HSID	Is needed to secure digitally signed and encrypted data from the unique Google ID and to store the last login time that Google uses to identify visitors, prevent fraudulent use of login data, and protect visitor data from unauthorized parties. This may also be used for targeting purposes to display relevant and personalized advertising content.	8 months	HTTP	Google
__SECURE-SSID	Is needed to store information about how visitors use the site and about the ads they may have seen before visiting the site. Also used to customize ads on Google domains.	8 months	HTTP	Google
test_cookie	Is set as a test to check whether the browser allows cookies to be set. Does not contain any identification features.	15 minutes	HTTP	Google
VISITOR_INFO1_LIVE	Is needed by YouTube to store user settings and to calculate user bandwidth.	6 months	HTTP	Youtube
facebook	Is used to Enable ad delivery or retargeting	90 days	HTTP	Meta (Facebook)
__fb_chat_plugin	Is needed to store and track interactions (marketing/tracking).	persistent	HTTP	Meta (Facebook)
_js_datr	Is needed to save user settings.	2 years	HTTP	Meta (Facebook)
_fbc	Is needed to save the last visit (marketing/tracking).	2 years	HTTP	Meta (Facebook)
fbm	Is needed to store account data (marketing/tracking).	1 year	HTTP	Meta (Facebook)
xs	Is needed to store a unique session ID (marketing/tracking).	1 year	HTTP	Meta (Facebook)
wd	Is needed to log the screen resolution.	1 week	HTTP	Meta (Facebook)
fr	Is needed to serve ads and measure and improve their relevance.	3 months	HTTP	Meta (Facebook)
act	Is needed to store logged in users (marketing/tracking).	90 days	HTTP	Meta (Facebook)
_fbp	Is needed to store and track visits to various websites (marketing/tracking).	3 months	HTTP	Meta (Facebook)
datr	Is needed to identify the browser for security and website integrity purposes, including account recovery and identification of potentially compromised accounts.	2 years	HTTP	Meta (Facebook)
dpr	Is used for analysis purposes. Technical parameters are logged (e.g. aspect ratio and dimensions of the screen) so that Facebook apps can be displayed correctly.	1 week	HTTP	Meta (Facebook)
sb	Is needed to store browser details and security information of the Facebook account.	2 years	HTTP	Meta (Facebook)
dbln	Is needed to store browser details and security information of the Facebook account.	2 years	HTTP	Meta (Facebook)
spin	Is needed for promotional purposes and social campaign reporting.	session	HTTP	Meta (Facebook)
presence	Contains the "chat" status of logged in users.	1 month	HTTP	Meta (Facebook)
cppo	Is needed for statistical purposes.	90 days	HTTP	Meta (Facebook)
locale	Is needed to save the language settings.	session	HTTP	Meta (Facebook)
pl	Required for Facebook Pixel.	2 years	HTTP	Meta (Facebook)
lu	Required for Facebook Pixel.	2 years	HTTP	Meta (Facebook)
c_user	Required for Facebook Pixel.	3 months	HTTP	Meta (Facebook)
bcookie	Is needed to store browser data (marketing/tracking).	2 years	HTTP	LinkedIn
li_oatml	Is needed to identify LinkedIn members outside of LinkedIn for advertising and analytics purposes.	1 month	HTTP	LinkedIn
BizographicsOptOut	Is needed to save privacy settings.	10 years	HTTP	LinkedIn
li_sugr	Is needed to store browser data (marketing/tracking).	3 months	HTTP	LinkedIn
UserMatchHistory	Is needed to provide advertising or retargeting (marketing/tracking).	30 days	HTTP	LinkedIn
linkedin_oauth_	Is needed to provide cross-page functionality.	session	HTTP	LinkedIn
lidc	Is needed to store performed actions on the website (marketing/tracking).	1 day	HTTP	LinkedIn
bscookie	Is needed to store performed actions on the website (marketing/tracking).	2 years	HTTP	LinkedIn
X-LI-IDC	Is needed to provide cross-page functionality (marketing/tracking).	session	HTTP	LinkedIn
AnalyticsSyncHistory	Stores the time when the user was synchronized with the "lms_analytics" cookie.	30 days	HTTP	LinkedIn
lms_ads	Is needed to identify LinkedIn members outside of LinkedIn.	30 days	HTTP	LinkedIn
lms_analytics	Is needed to identify LinkedIn members for analytics purposes.	30 days	HTTP	LinkedIn
li_fat_id	Required for indirect member identification used for conversion tracking, retargeting and analytics.	30 days	HTTP	LinkedIn
U	Is needed to identify the browser.	3 months	HTTP	LinkedIn
_guid	Is needed to identify a LinkedIn member for advertising via Google Ads.	90 days	HTTP	LinkedIn

E138-03 ../Tuning Charge and Spin of Correlated Electrons

Publications

Group of

Andrej Pustogow

Group of

Andrej Pustogow