Xinping Shi
University of California, Riverside
10 Papers
19 Citations
Xinping Shi is an academic researcher from University of California, Riverside. The author has contributed to research in topics: Spintronics & Magnetization. The author has an hindex of 2, co-authored 5 publications.
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Papers
Picosecond Spin Orbit Torque Switching
Kaushalya Jhuria,Julius Hohlfeld,Akshay Pattabi,Elodie Martin,Aldo Ygnacio Arriola Córdova,Xinping Shi,Roberto Lo Conte,Sébastien Petit-Watelot,Juan-Carlos Rojas-Sánchez,Gregory Malinowski,Stéphane Mangin,Aristide Lemaître,Michel Hehn,Jeffrey Bokor,Richard Wilson,Jon Gorchon +15 more
TL;DR: In this article, the authors demonstrate reliable and deterministic control of the out-of-plane magnetization of a 1 nm-thick Co layer with single 6 ps-wide electrical pulses that induce spin-orbit torques on the magnetization.
15
Differentiating contributions of electrons and phonons to the thermoreflectance spectra of gold
TL;DR: In this article, the electron vs phonon contributions to the thermoreflectance spectra of gold bilayers were quantified at all wavelengths between 400 and 1000 nm and it was shown that changes in phonon temperature, not electron temperature, are the primary contributors to the thermodynamic properties of Au bilayers.
8
Enhanced inverse Faraday effect and time-dependent thermo-transmission in gold nanodisks
Alma K. González-Alcalde,Xinping Shi,Victor H. Ortiz,Ji Feng,Richard B. Wilson,Luat T. Vuong +5 more
TL;DR: Enhanced inverse Faraday effect and time-dependent thermo-transmission in gold nanodisks demonstrate large IFE signals due to dipolar plasmonic resonance and spectral resemblance with thermo-transmission signals.
7
Studies of inverse faraday effect with varying thickness nanodisks
Luat T. Vuong,Alma K. González-Alcalde,Víctor H. Ortiz,Xinping Shi,Ji Feng,Richard B. Wilson +5 more
- 05 Oct 2023
TL;DR: Researchers investigate the inverse Faraday effect in nonmagnetic plasmonic nanodisks with varying thickness, exploring how the aspect ratio affects the phenomenon, particularly the red-shifting of plasmon resonance and electron spillout in thin disks.
1
•Posted Content
Differentiating Contributions of Electrons and Phonons to the Thermoreflectance Spectra of Gold
TL;DR: In this article, a series of pump/probe measurements on nanoscale Pt/Au bilayers at wavelengths between 400 and 1000 nm were performed to quantify the electron vs. phonon contributions to the thermoreflectance spectra of gold.