ASM
- 10.24435/materialscloud:2z-33 — Light-matter interactions in van der Waals photodiodes from first principles, by J. Cao, S. Fiore, C. Klinkert, N. Vetsch, M. Luisier
Related MARVEL publication:
- J. Cao, S. Fiore, C. Klinkert, N. Vetsch, M. Luisier, Light-matter interactions in van der Waals photodiodes from first principles, Physical Review B 106, 035306 (2022). [Open Access URL]
Group(s): Luisier / Project(s): ASM
- J. Cao, S. Fiore, C. Klinkert, N. Vetsch, M. Luisier, Light-matter interactions in van der Waals photodiodes from first principles, Physical Review B 106, 035306 (2022). [Open Access URL]
- 10.24435/materialscloud:nh-nk — Dynamics of van der Waals charge qubit in two-dimensional bilayer materials: Ab initio quantum transport and qubit measurement, by J. Cao, G. Gandus, T. Agarwal, M. Luisier, Y. Lee
Related MARVEL publication:
- J. Cao, G. Gandus, T. Agarwal, M. Luisier, Y. Lee, Dynamics of van der Waals charge qubit in two-dimensional bilayer materials: Ab initio quantum transport and qubit measurement, Physical Review Research 4, 043073 (2022). [Open Access URL]
Group(s): Luisier / Project(s): ASM
- J. Cao, G. Gandus, T. Agarwal, M. Luisier, Y. Lee, Dynamics of van der Waals charge qubit in two-dimensional bilayer materials: Ab initio quantum transport and qubit measurement, Physical Review Research 4, 043073 (2022). [Open Access URL]
- 10.24435/materialscloud:7f-5t — Influence of the hBN dielectric layers on the quantum transport properties of MoS2 transistors., by S. Fiore, M. Luisier, F. Ducry, C. Klinkert, J. Backman
Related MARVEL publication:
- S. Fiore, C. Klinkert, F. Ducry, J. Backman, M. Luisier, Influence of the hBN Dielectric Layers on the Quantum Transport Properties of MoS_2 Transistors, Materials 15, 1062 (2022). [Open Access URL]
Group(s): Luisier / Project(s): ASM
- S. Fiore, C. Klinkert, F. Ducry, J. Backman, M. Luisier, Influence of the hBN Dielectric Layers on the Quantum Transport Properties of MoS_2 Transistors, Materials 15, 1062 (2022). [Open Access URL]
- 10.24435/materialscloud:h4-c0 — Efficient and accurate defect level modelling in monolayer MoS₂ via GW+DFT with open boundary conditions, by G. Gandus, Y. Lee, L. Deuschle, D. Passerone, M. Luisier
Related MARVEL publication:
- G. Gandus, Y. Lee, L. Deuschle, D. Passerone, M. Luisier, Efficient and accurate defect level modeling in monolayer MoS_2 via GW+DFT with open boundary conditions, Solid-State Electronics 199, 108499 (2023). [Open Access URL]
Group(s): Luisier, Passerone / Project(s): ASM
- G. Gandus, Y. Lee, L. Deuschle, D. Passerone, M. Luisier, Efficient and accurate defect level modeling in monolayer MoS_2 via GW+DFT with open boundary conditions, Solid-State Electronics 199, 108499 (2023). [Open Access URL]
- 10.24435/materialscloud:v6-nk — Mott versus hybridization gap in the low-temperature phase of 1T-TaS₂, by F. Petocchi, C. W. Nicholson, B. Salzmann, D. Pasquier, O. Yazyev, C. Monney, P. Werner
Related MARVEL publication:
- F. Petocchi, C. Nicholson, B. Salzmann, D. Pasquier, O. Yazyev, C. Monney, P. Werner, Mott versus Hybridization Gap in the Low-Temperature Phase of 1T-TaS_2, Physical Review Letters 129, 016402 (2022). [Open Access URL]
Group(s): Werner, Yazyev / Project(s): ASM, DD5, DD6
- F. Petocchi, C. Nicholson, B. Salzmann, D. Pasquier, O. Yazyev, C. Monney, P. Werner, Mott versus Hybridization Gap in the Low-Temperature Phase of 1T-TaS_2, Physical Review Letters 129, 016402 (2022). [Open Access URL]
- 10.24435/materialscloud:ck-7m — Probing magnetic orbitals and Berry curvature with circular dichroism in resonant inelastic X-ray scattering, by M. Schüler, T. Schmitt, P. Werner
Related MARVEL publication:
- M. Schüler, T. Schmitt, P. Werner, Probing magnetic orbitals and Berry curvature with circular dichroism in resonant inelastic X-ray scattering, npj Quantum Materials 8, 6 (2023). [Open Access URL]
Group(s): Schueler, Werner / Project(s): ASM
- M. Schüler, T. Schmitt, P. Werner, Probing magnetic orbitals and Berry curvature with circular dichroism in resonant inelastic X-ray scattering, npj Quantum Materials 8, 6 (2023). [Open Access URL]