Felix Binkowski
@felixbinkowski.bsky.social
Researcher @zuseinstitute.bsky.social in the group @cnoatzib.bsky.social.
My research focus is on numerical methods for resonance problems from the field of nanophotonics.
My research focus is on numerical methods for resonance problems from the field of nanophotonics.
High Purcell enhancement in all-TMDC nanobeam resonator designs for nanolasers: doi.org/10.48550/arX...
Great collaboration with Stephan Reitzenstein, (@tuberlin.bsky.social) Battulga Munkhbat (@dtu.dk), @jcmwave.bsky.social, @cnoatzib.bsky.social, @mathplusberlin.bsky.social.
Great collaboration with Stephan Reitzenstein, (@tuberlin.bsky.social) Battulga Munkhbat (@dtu.dk), @jcmwave.bsky.social, @cnoatzib.bsky.social, @mathplusberlin.bsky.social.
August 11, 2025 at 8:24 AM
High Purcell enhancement in all-TMDC nanobeam resonator designs for nanolasers: doi.org/10.48550/arX...
Great collaboration with Stephan Reitzenstein, (@tuberlin.bsky.social) Battulga Munkhbat (@dtu.dk), @jcmwave.bsky.social, @cnoatzib.bsky.social, @mathplusberlin.bsky.social.
Great collaboration with Stephan Reitzenstein, (@tuberlin.bsky.social) Battulga Munkhbat (@dtu.dk), @jcmwave.bsky.social, @cnoatzib.bsky.social, @mathplusberlin.bsky.social.
Happy to share our preprint on AAA rational approximation for photonic fibers doi.org/10.48550/arX...! We show how to compute only the fundamental modes within a dense spectrum of nonrelevant modes. Many thanks to my colleagues @cnoatzib.bsky.social, @zuseinstitute.bsky.social, @jcmwave.bsky.social!
December 19, 2024 at 9:45 AM
Happy to share our preprint on AAA rational approximation for photonic fibers doi.org/10.48550/arX...! We show how to compute only the fundamental modes within a dense spectrum of nonrelevant modes. Many thanks to my colleagues @cnoatzib.bsky.social, @zuseinstitute.bsky.social, @jcmwave.bsky.social!