Qiming Shao
Scholar

Qiming Shao

Google Scholar ID: i4v4ng4AAAAJ
HKUST / UCLA / Tsinghua University
Topological spintronicsSpin-orbitronicsMagnetic insulatorsQuantum devicesEfficient Learning
HomepageGoogle Scholar
Citations & Impact
All-time
Citations
5,034
 
H-index
34
 
i10-index
55
 
Publications
20
 
Co-authors
0
 
Contact
GitHubOpen ↗LinkedInOpen ↗
Publications
4 items
MVISTA-4D: View-Consistent 4D World Model with Test-Time Action Inference for Robotic Manipulation
2026
Cited
0
Multi-Channel Currency: A Secure Method Using Semi-Quantum Tokens
2025
Cited
0
Cryogenic in-memory computing using tunable chiral edge states
arXiv.org · 2022
Cited
4
Spintronic memristors for computing
arXiv.org · 2021
Cited
3
Resume (English only)
Academic Achievements
  • Research areas cover spin-orbit torque, topological insulator, spin-charge interconversion, skyrmion in ferromagnetic, ferrimagnetic and antiferromagnetic multilayers, MRAM (STT/SOT/VCMA), spin Hall effect, etc.
Research Experience
  • Currently focusing on novel electronic and spintronic materials and their hardware-software co-design for memory, AI, robotic, and quantum computing applications.
Background
  • Research interests include realizing energy and time-efficient hardware using spintronic and quantum materials for physical and quantum intelligence.
Miscellany
  • Techniques frequently used include second harmonic method, spin-torque ferromagnetic resonance, Differential Kerr method, Magneto-optical Kerr effect (MOKE) microscopy, X-ray magnetic circular dichroism, Polarized neutron reflectometry, magnetron sputtering, pulsed laser deposition, micromagnetic simulation, physical device modeling, circuit design, system design and prototyping, device-system co-optimization (DSCO), machine learning, and ROS.
Co-authors
0 total
Co-authors: 0 (list not available)