@article{45b9c80cd81d4f18952d2a0f7ce757a4,
title = "A Hybrid Magneto-Optic Capacitive Memory with Picosecond Writing Time",
abstract = "The long-term future of information storage requires the use of sustainable nanomaterials in architectures operating at high frequencies. Interfaces can play a key role in this pursuit via emergent functionalities that break out from conventional operation methods. Here, spin-filtering effects and photocurrents are combined at metal-molecular-oxide junctions in a hybrid magneto-capacitive memory. Light exposure of metal-fullerene-metal oxide devices results in spin-polarized charge trapping and the formation of a magnetic interface. Because the magnetism is generated by a photocurrent, the writing time is determined by exciton formation and splitting, electron hopping, and spin-dependent trapping. Transient absorption spectroscopy measurements show changes in the electronic states as a function of the magnetic history of the device within picoseconds of the optical pumping. The stored information is read using time-resolved scanning magneto optic Kerr effect measurements during microwave irradiation. The emergence of a magnetic interface in the picosecond timescale opens new paths of research to design hybrid magneto-optic structures operating at high frequencies for sensing, computing, and information storage.",
author = "Matthew Rogers and Ahasan Habib and Gilberto Teobaldi and Timothy Moorsom and Johansson, {J Olof} and Luke Hedley and Keatley, {Paul S.} and Hicken, {Robert J.} and Manuel Valvidares and Pierluigi Gargiani and Nader Alosaimi and Emiliano Poli and Mannan Ali and Gavin Burnell and Hickey, {Bryan J.} and Oscar Cespedes",
note = "Funding Information: This work was supported by EPSRC grants no. EP/M000923/1, EP/K036408/1, EP/S031081/1, and EP/S030263/1. O. Cespedes acknowledges the support of the EC project INTERFAST (H2020‐FET‐OPEN‐965046). M. Valvidares acknowledges funding by grants PID2020‐116181RB‐C32 and FlagEra SOgraphMEM PCI2019‐111908‐2 (AEI/FEDER). ALBA beamtime access via proposal IDs 2017092385 and 2015091530. The authors acknowledge use of the ARCHER(2) (via the UK Car–Parrinello Consortium, EP/K013610/1 and EP/P022189/2), UK Materials and Molecular Modelling Hub (EPSRC EP/P020194/1), and STFC SCARF HCP facilities. Use of the Exeter time resolved magnetism (EXTREMAG) facility was supported by EPSRC grants EP/R008809/1 and EP/V054112/1. A. Habib thanks the Government of the People's Republic of Bangladesh for support via the Prime Minister Fellowship No. 03.03.2690.093.18.003. Publisher Copyright: {\textcopyright} 2023 The Authors. Advanced Functional Materials published by Wiley-VCH GmbH.",
year = "2023",
month = jan,
day = "20",
language = "English",
journal = "Advanced Functional Materials",
issn = "1616-301X",
publisher = "Wiley-VCH",
}