Hello, I'm
Hemant Verma
Ph.D. candidate in computational semiconductor physics, translating first-principles results into device-ready models.
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Hello, I'm
Ph.D. candidate in computational semiconductor physics, translating first-principles results into device-ready models.
Computational physicist in Taipei focused on device-relevant materials modeling.
I run DFT, Wannier90/EPW, and NEGF workflows to map electron-phonon interactions and hot-carrier behavior in emerging materials.
Python-first automation for submission, post-processing, and visualization; I care about reproducible, readable tools.
When I am not debugging a job script, I am usually on a Taiwan hike, shooting photos, or hunting for the next good coffee.
Bridge fundamental physics and real devices by shipping models that others can trust for performance predictions.
Research tools, simulations, and automation for semiconductor physics.
Automated EPW workflow that computes EPC lifetimes and summarizes scattering trends for semiconductor materials.
View ProjectAnalysis toolkit for NanoDCAL NEGF runs to extract I-V characteristics, transmission spectra, and channel benchmarking.
View ProjectHigh-throughput automation for structure relaxation, band-structure calculations, and publication-ready plotting.
View ProjectWeb dashboard to monitor HPC jobs, capture logs, and visualize intermediate results without SSH hopping.
View ProjectConnecting atomistic simulations to transport, reliability, and device performance metrics.
Band structure, DOS, and work-function alignment translated into device-ready parameters.
Wannier90 + EPW pipelines for EPC matrix elements, scattering rates, and carrier lifetimes that capture anisotropic limits.
NanoDCAL-based transmission spectra and I-V analysis for 2D TMD transistors to study scaling and quantum conductance.
Python-driven pipelines for production DFT/EPC runs, convergence checks, and automated post-processing at scale.
Selected peer-reviewed work and manuscripts in computational materials science.
P. Srivastva, B. Bazri, Y.-T. Hung, H. Verma, et al.
View PaperL. T. Ngo, Y.-T. Huang, C.-C. Chang, H. Verma, et al.
View PaperL. T. Ngo, W.-T. Huang, H. Verma, et al.
View PaperA. Thakran, A. Mohapatra, H. Verma, et al.
View PaperH. Verma, A. J. Kale, et al.
View PaperOpen to collaborations, research chats, and new ideas.
Research Center for Applied Sciences, Academia Sinica, Taipei, Taiwan.