Cavity quantum materials

HORIZON.1.1HORIZON-ERCID: 101124492
EC Contribution
€19,511
Consortium Size
1 orgs
Summary

Light-matter coupling has the potential to modify functional properties of quantum materials to yield the tunability required for quantum-technological applications. However, light-matter control concepts, such as Floquet engineering and light-induced phase transitions, suffer from the requirement of strong laser driving and the lack of coherence on long time scales. Overcoming these key limitations through advancing the infant field of cavity quantum materials is the central objective of CAVMAT.The main hypothesis behind CAVMAT is that cavity materials engineering combines the efficiency of strong-light matter coupling in cavities with the flexibility of Floquet engineering of macroscopic quantum many-body phenomena. CAVMAT aims to explore and expand this new frontier with a combined theoretical-computational effort. The three key objectives of CAVMAT are: (i) To establish cavity-driving schemes that successfully bridge the gap between quantum cavity and semiclassical many-photon Floquet limits. (ii) To propose realistic cavity quantum materials platforms providing guidance for next-generation experiments. (iii) To develop and combine numerical methods that can treat the relevant nonequilibrium electron-polariton problems at short and long time scales. These objectives will be tackled in three work packages, namely WP 1: quantum Floquet engineering, WP 2: plasmonic superconductivity, and WP 3: excited states by design.The proposed work goes well beyond state-of-the-art in both nonequilibrium quantum many-body systems and quantum optics, and its success will be groundbreaking through providing microscopic underpinnings for pathways towards versatile solid-state platforms for cavity and Floquet physics.

Consortium (1)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (10)
Cavity-altered superconductivity
Nature· 2026DOI
Itai Keren, Tatiana A. Webb, Shuai Zhang, Jikai Xu, Dihao Sun, Brian S. Y. Kim, Dongbin Shin, Songtian S. Zhang, Junhe Zhang, Giancarlo Pereira, Juntao Yao, Takuya Okugawa, Marios H. Michael, Emil Viñas Boström, James H. Edgar, Stuart Wolf, Matthew Julian, Rohit P. Prasankumar, Kazuya Miyagawa, Kazushi Kanoda, Genda Gu, Matthew Cothrine, David Mandrus, Michele Buzzi, Andrea Cavalleri, Cory R. Dean, Dante M. Kennes, Andrew J. Millis, Qiang Li, Michael A. Sentef, Angel Rubio, Abhay N. Pasupathy, D. N. Basov
Cavity electrodynamics of van der Waals heterostructures
Nature Physics· 2025DOI
Gunda Kipp; Hope M. Bretscher; Benedikt Schulte; Dorothee Herrmann; Kateryna Kusyak; Matthew W. Day; Sivasruthi Kesavan; Toru Matsuyama; Xinyu Li; Sara Maria Langner; Jesse Hagelstein; Felix Sturm; Alexander M. Potts; Christian J. Eckhardt; Yunfei Huang; Kenji Watanabe; Takashi Taniguchi; Angel Rubio; Dante M. Kennes; Michael A. Sentef; Emmanuel Baudin; Guido Meier; Marios H. Michael; James W. McIver
Journal of Physical Chemistry A
The Journal of Physical Chemistry A· 2025DOI
B. Hourahine; M. Berdakin; J. A. Bich; F. P. Bonafé; C. Camacho; Q. Cui; M. Y. Deshaye; G. Díaz Mirón; S. Ehlert; M. Elstner; T. Frauenheim; N. Goldman; R. A. González León; T. van der Heide; S. Irle; T. Kowalczyk; T. Kubař; I. S. Lee; C. R. Lien-Medrano; A. Maryewski; T. Melson; S. K. Min; T. Niehaus; A. M. N. Niklasson; A. Pecchia; K. Reuter; C. G. Sánchez; C. Scheurer; M. A. Sentef; P. V. Stishenko; V. Q. Vuong; B. Aradi
Momentum-resolved fingerprint of Mottness in layer-dimerized Nb3Br8
Nature Communications· 2025DOI
Mihir Date, Francesco Petocchi, Yun Yen, Jonas A. Krieger, Banabir Pal, Vicky Hasse, Emily C. McFarlane, Chris Körner, Jiho Yoon, Matthew D. Watson, Vladimir N. Strocov, Yuanfeng Xu, Ilya Kostanovski, Mazhar N. Ali, Sailong Ju, Nicholas C. Plumb, Michael A. Sentef, Georg Woltersdorf, Michael Schüler, Philipp Werner, Claudia Felser, Stuart S. P. Parkin, Niels B. M. Schröter
Observation of Floquet states in graphene
Nature Physics· 2025DOI
Marco Merboldt; Michael Schüler; David Schmitt; Jan Philipp Bange; Wiebke Bennecke; Karun Gadge; Klaus Pierz; Hans Werner Schumacher; Davood Momeni; Daniel Steil; Salvatore R. Manmana; Michael A. Sentef; Marcel Reutzel; Stefan Mathias
Optical Materials Express
Optical Materials Express· 2025DOI
Xinyu Li; Jesse Hagelstein; Felix Sturm; Kateryna Kusyak; Juan I. Aranzadi; Gunda Kipp; Yunfei Huang; Benedikt F. Schulte; Alex M. Potts; Victoria Quirós-Cordero; Chiara Trovatello; Zhi Hao Peng; Chaowei Hu; Jonathan M. DeStefano; Takashi Taniguchi; Kenji Wantanabe; Michael A. Sentef; Dongbin Shin; P. James Schuck; Xiaodong Xu; Jiun-Haw Chu; Hope M. Bretscher; Matthew W. Day; James W. McIver
Surface-Mediated Ultrastrong Cavity Coupling of Two-Dimensional Itinerant Electrons
Physical Review Letters· 2025DOI
Eckhardt, Christian Johannes; Grankin, Andrey; Kennes, Dante Marvin; Ruggenthaler, Michael; Rubio, Angel; Sentef, Michael A.; Hafezi, Mohammad; Michael, Marios H.
The 2025 roadmap to ultrafast dynamics: frontiers of theoretical and computational modeling
Journal of Physics: Materials· 2025DOI
Caruso, Fabio; Sentef, Michael A.; Attaccalite, Claudio; Bonitz, Michael; Draxl, Claudia; De Giovannini, Umberto; Eckstein, Martin; Ernstorfer, Ralph; Fechner, Michael; Grüning, Myrta; Hübener, Hannes; Joost, Jan-Philip; Juraschek, Dominik M; Karrasch, Christoph; Kennes, Dante Marvin; Latini, Simone; Lu, I-Te; Neufeld, Ofer; Perfetto, Enrico; Rettig, Laurenz; Pela, Ronaldo Rodrigues; Rubio, Angel; Rudzinski, Joseph F; Ruggenthaler, Michael; Sangalli, Davide; Schüler, Michael; Shallcross, Samuel; Sharma, Sangeeta; Stefanucci, Gianluca; Werner, Philipp
Physical Review B - Condensed Matter and Materials Physics
Physical Review B· 2024DOI
Francesco Grandi; Michael A. Sentef; Dante M. Kennes; Ronny Thomale
Trajectory Surface Hopping with Tight Binding Density Functional Theory applied to Molecular Motors
Journal of Chemical Theory and Computation· 2024DOI
Mirón, Gonzalo Díaz; Lien-Medrano, Carlos R.; Banerjee, Debarshi; Monti, Marta; Aradi, B.; Sentef, Michael A.; Niehaus, Thomas A.; Hassanali, Ali