Folgen
Marco Berritta
Marco Berritta
PostDoc position
Bestätigte E-Mail-Adresse bei exeter.ac.uk
Titel
Zitiert von
Zitiert von
Jahr
Magneto-optical detection of the spin Hall effect in Pt and W thin films
C Stamm, C Murer, M Berritta, J Feng, M Gabureac, PM Oppeneer, ...
Physical review letters 119 (8), 087203, 2017
1662017
Magnetisation switching of FePt nanoparticle recording medium by femtosecond laser pulses
R John, M Berritta, D Hinzke, C Müller, T Santos, H Ulrichs, P Nieves, ...
Scientific reports 7 (1), 4114, 2017
1462017
Ab Initio Theory of Coherent Laser-Induced Magnetization in Metals
M Berritta, R Mondal, K Carva, PM Oppeneer
Physical Review Letters 117 (13), 137203, 2016
1422016
Design of a Lambda system for population transfer in superconducting nanocircuits
G Falci, A La Cognata, M Berritta, A D’Arrigo, E Paladino, B Spagnolo
Physical Review B 87 (21), 214515, 2013
992013
Orbitally dominated Rashba-Edelstein effect in noncentrosymmetric antiferromagnets
L Salemi, M Berritta, AK Nandy, PM Oppeneer
Nature communications 10 (1), 5381, 2019
692019
Speed and efficiency of femtosecond spin current injection into a nonmagnetic material
M Hofherr, P Maldonado, O Schmitt, M Berritta, U Bierbrauer, ...
Physical Review B 96 (10), 100403, 2017
652017
Relativistic theory of magnetic inertia in ultrafast spin dynamics
R Mondal, M Berritta, AK Nandy, PM Oppeneer
Physical Review B 96 (2), 024425, 2017
652017
Relativistic theory of spin relaxation mechanisms in the Landau-Lifshitz-Gilbert equation of spin dynamics
R Mondal, M Berritta, PM Oppeneer
Physical Review B 94 (14), 144419, 2016
542016
Relativistic interaction Hamiltonian coupling the angular momentum of light and the electron spin
R Mondal, M Berritta, C Paillard, S Singh, B Dkhil, PM Oppeneer, ...
Physical Review B 92 (10), 100402, 2015
492015
Ab initio investigation of light-induced relativistic spin-flip effects in magneto-optics
R Mondal, M Berritta, K Carva, PM Oppeneer
Physical Review B 91 (17), 174415, 2015
402015
Generalisation of Gilbert damping and magnetic inertia parameter as a series of higher-order relativistic terms
R Mondal, M Berritta, PM Oppeneer
Journal of Physics: Condensed Matter 30 (26), 265801, 2018
382018
Ultrafast demagnetization of Pt magnetic moment in L10-FePt probed by magnetic circular dichroism at a hard x-ray free electron laser
K Yamamoto, Y Kubota, M Suzuki, Y Hirata, K Carva, M Berritta, K Takubo, ...
New Journal of Physics 21 (12), 123010, 2019
372019
Frequency‐Independent Terahertz Anomalous Hall Effect in DyCo5, Co32Fe68, and Gd27Fe73 Thin Films from DC to 40 THz
TS Seifert, U Martens, F Radu, M Ribow, M Berritta, L Nádvorník, R Starke, ...
Advanced Materials 33 (14), 2007398, 2021
292021
Magnetic and all-optical switching properties of amorphous alloys
A Ciuciulkaite, K Mishra, MV Moro, IA Chioar, RM Rowan-Robinson, ...
Physical Review Materials 4 (10), 104418, 2020
282020
Anomalous effect of quantum interference in organic spin filters
A Bajaj, P Kaur, A Sud, M Berritta, ME Ali
The Journal of Physical Chemistry C 124 (44), 24361-24371, 2020
272020
Magneto-optical detection of the orbital Hall effect in chromium
I Lyalin, S Alikhah, M Berritta, PM Oppeneer, RK Kawakami
Physical Review Letters 131 (15), 156702, 2023
232023
Ultrafast coherent all-optical switching of an antiferromagnet with the inverse Faraday effect
T Dannegger, M Berritta, K Carva, S Selzer, U Ritzmann, PM Oppeneer, ...
Physical Review B 104 (6), L060413, 2021
232021
Quantitative comparison of electrically induced spin and orbital polarizations in heavy-metal/-metal bilayers
L Salemi, M Berritta, PM Oppeneer
Physical Review Materials 5 (7), 074407, 2021
212021
Unified theory of magnetization dynamics with relativistic and nonrelativistic spin torques
R Mondal, M Berritta, PM Oppeneer
Physical Review B 98 (21), 214429, 2018
212018
Interplay between quantum interference and conformational fluctuations in single-molecule break junctions
M Berritta, DZ Manrique, CJ Lambert
Nanoscale 7 (3), 1096-1101, 2015
212015
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20