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Chirag Garg
Chirag Garg
IBM Almaden Research Center
Bestätigte E-Mail-Adresse bei ibm.com
Titel
Zitiert von
Zitiert von
Jahr
Butterfly magnetoresistance, quasi-2D Dirac Fermi surface and topological phase transition in ZrSiS
MN Ali, LM Schoop, C Garg, JM Lippmann, E Lara, B Lotsch, SSP Parkin
Science advances 2 (12), e1601742, 2016
2112016
Magnetic racetrack memory: From physics to the cusp of applications within a decade
R Bläsing, AA Khan, PC Filippou, C Garg, F Hameed, J Castrillon, ...
Proceedings of the IEEE 108 (8), 1303-1321, 2020
1112020
Exchange coupling torque in ferrimagnetic Co/Gd bilayer maximized near angular momentum compensation temperature
R Bläsing, T Ma, SH Yang, C Garg, FK Dejene, AT N’Diaye, G Chen, K Liu, ...
Nature communications 9 (1), 4984, 2018
942018
Dramatic influence of curvature of nanowire on chiral domain wall velocity
C Garg, SH Yang, T Phung, A Pushp, SSP Parkin
Science advances 3 (5), e1602804, 2017
572017
Anisotropic proximity–induced superconductivity and edge supercurrent in Kagome metal, K1−xV3Sb5
Y Wang, SY Yang, PK Sivakumar, BR Ortiz, SML Teicher, H Wu, ...
Science advances 9 (28), eadg7269, 2023
422023
Highly asymmetric chiral domain-wall velocities in Y-shaped junctions
C Garg, A Pushp, SH Yang, T Phung, BP Hughes, C Rettner, SSP Parkin
Nano letters 18 (3), 1826-1830, 2018
312018
Chiral exchange drag and chirality oscillations in synthetic antiferromagnets
SH Yang, C Garg, SSP Parkin
Nature Physics 15 (6), 543-548, 2019
292019
The dominance of paramagnetic loss in microwave dielectric ceramics at cryogenic temperatures
L Liu, A Matusevich, C Garg, N Newman
Applied Physics Letters 101 (25), 2012
23*2012
Current driven chiral domain wall motions in synthetic antiferromagnets with Co/Rh/Co
A Cohen, A Jonville, Z Liu, C Garg, PC Filippou, SH Yang
Journal of Applied Physics 128 (5), 2020
122020
Resonator techniques to characterize material and device properties at microwave frequencies in the quantum design PPMS measurement system
N Newman, L Liu, R Hanley, C Garg
Application note 40, 1084-750, 2013
102013
Role of Micromagnetic States on Spin–Orbit Torque-Switching Schemes
J Zhang, C Garg, T Phung, C Rettner, BP Hughes, SH Yang, Y Jiang, ...
Nano Letters 18 (7), 4074-4080, 2018
72018
Alpha T N’Diaye, Gong Chen, Kai Liu, and Stuart SP Parkin. Exchange coupling torque in ferrimagnetic co/gd bilayer maximized near angular momentum compensation temperature
R Bläsing, T Ma, SH Yang, C Garg, FK Dejene
Nature communications 9 (1), 1-8, 2018
72018
Heusler-based synthetic antiferrimagnets
PC Filippou, SV Faleev, C Garg, J Jeong, Y Ferrante, T Topuria, ...
Science Advances 8 (8), eabg2469, 2022
62022
Spin-orbit torque driven one-bit magnetic racetrack devices-memory and neuromorphic applications
SH Yang, C Garg, T Phung, C Rettner, B Hughes
2019 International Symposium on VLSI Technology, Systems and Application …, 2019
62019
Efficient chiral-domain-wall motion driven by spin-orbit torque in metastable platinum films
C Garg, SH Yang, L Thompson, T Topuria, A Capua, B Hughes, T Phung, ...
Physical Review Applied 14 (3), 034052, 2020
52020
Heusler compounds with non-magnetic spacer layer for formation of synthetic anti-ferromagnets (SAF)
PC Filippou, C Garg, Y Ferrante, SSP Parkin, J Jeong, MG Samant
US Patent 10,957,848, 2021
42021
Tunable templating layers for perpendicularly magnetized Heusler films
J Jeong, PC Filippou, Y Ferrante, C Garg, SSP Parkin, M Samant
US Patent 11,804,321, 2023
32023
Templating layers for perpendicularly magnetized Heusler films/compounds
J Jeong, PC Filippou, Y Ferrante, C Garg, SSP Parkin, M Samant
US Patent 11,751,486, 2023
32023
IrAl as a non-magnetic spacer layer for formation of synthetic anti-ferromagnets (SAF) with Heusler compounds
J Jeong, PC Filippou, Y Ferrante, C Garg, SSP Parkin, M Samant
US Patent 11,538,987, 2022
32022
Effect of interfacial insertion layers on the spin–orbit torque in W (O)∣ CoFeB heterostructures
J Zhang, T Phung, BP Hughes, SH Yang, C Garg, Y Jiang, SSP Parkin
Applied Physics Express 12 (3), 033001, 2019
32019
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