Jan Wilhelm
@wilhelm_cpm
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Computational Physics & Materials Science
University of Regensburg
Joined April 2021
Interested in calculating the electronic band structure with GW? Check out how to reduce the computation time by 4🚀 orders of magnitude!👇Suited for 2D materials & moiré structures🥪 Stay tuned for Bethe-Salpeter and excitons! @CP2Kproject .
pubs.acs.org
The GW method is widely used for calculating the electronic band structure of materials. The high computational cost of GW algorithms prohibits their application to many systems of interest. We...
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RT @Seb_Klimmer: Excited to share that our latest research has been published in @NaturePhotonics! Huge thanks to my amazing colleagues fro….
nature.com
Nature Photonics - The feasibility of using second-harmonic generation to measure the broken time-reversal symmetry and valley polarization in monolayer WSe2 is presented, simplifying the process...
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"A stylish woman in a beige coat walking confidently past a moving train at a modern train station.". Create images and videos in seconds with Grok Imagine.
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RT @Theochem_TUD: Solving #multipole challenges in the GW100 benchmark enables precise low-scaling GW calculations. Work of @DorotheaGolze….
journals.aps.org
The $GW$ approximation is a widely used method for computing electron addition and removal energies of molecules and solids. The computational effort of conventional $GW$ algorithms increases as...
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RT @uni_regensburg: Ein Meilenstein für die Spitzenforschung! 🎉 Das Regensburg Center for Ultrafast Nanoscopy (RUN) an der Uni Regensburg w….
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Ever imagined capturing chemical reactions with atomic resolution on video?🧬⌬🎥 We take a step closer to this vision with near-field optical tunneling emission (NOTE) microscopy💥@Huber_Group NOTE mechanism validated by real-time TDDFT💻! @CP2Kproject.
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RT @tomsiday: Some work from my time in Regensburg, in the @Huber_Group. We worked out how to measure the coherent emission from tunnellin….
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RT @Huber_Group: We have discovered a quantum-mechanical contrast mechanism that enables all-optical microscopy to achieve atomic resolutio….
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RT @Huber_Group: We develop ultrafast lightwave-driven scanning tunnelling spectroscopy to investigate how the spin-orbit-split energy leve….
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RT @Huber_Group: Quantum dance to the beat of a drum: physicists at the University of Regensburg choreograph the shift of a quantized elect….
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Everything open-source & we tried to be as user-friendly as possible 😇 Howto with exemplary inputs available here:
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RT @uni_regensburg: Nanowelt in Superzeitlupe: UR erhält 6 Mio. Euro für neues Graduiertenkolleg zur ultraschnellen Nanoskopie. Revolution….
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RT @NatRevMater: Lightwave electronics could enable the control of interactions in quantum materials and provide access to the quantum phas….
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RT @DorotheaGolze: Core-level GW calculations just got faster. Our recent work is finally out
pubs.acs.org
In recent years, the GW method has emerged as a reliable tool for computing core-level binding energies. The contour deformation (CD) technique has been established as an efficient, scalable, and...
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RT @PhysRevB: PRB Editors' Suggestion: Influence of chirp and carrier-envelope phase on noninteger high-harmonic generation. M. Graml, M. N….
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RT @uni_regensburg: Ein Quantum Kino: 11,3 Mio. Euro zur Förderung des Projekts "Orbital Cinema" für räumlich und zeitlich ultrahochaufgelö….
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RT @Huber_Group: Together with @UMengineering, we realized a stopwatch for delocalized Bloch electrons in crystals that achieves attosecond….
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RT @ManuMeierhofer: Attosecond resolution meets millielectronvolt energy sensitivity: Our latest results in @Nature show that correlations….
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