RT @CJoshiPhD: #WeeklySpotlight #OSAIntegratedOptics TG @OpticalSociety "Low-loss composite photonic platform based on 2D semiconducto…
#WeeklySpotlight #OSAIntegratedOptics TG @OpticalSociety "Low-loss composite photonic platform based on 2D semiconductor monolayers" from the @LipsonGroup @CUSEAS published in @NaturePhotonics https://t.co/Q9p48VhHp6
RT @NaturePhotonics: Low-loss composite photonic platform based on 2D semiconductor monolayers: https://t.co/XewrqpfdM4 https://t.co/TODK6…
Low-loss composite photonic platform based on 2D semiconductor monolayers: https://t.co/XewrqpfdM4 https://t.co/TODK60JaOW
RT @LipsonGroup: Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/Jc…
RT @LipsonGroup: Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/Jc…
RT @LipsonGroup: Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/Jc…
RT @LipsonGroup: Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/Jc…
RT @LipsonGroup: Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/Jc…
Ipshita's paper is featured on https://t.co/Kx8pT9t4mJ, EurekAlert, Columbia Engineering, and many more. https://t.co/JcRaLuLQfx via @CUSEAS @EurekAlert Low-loss composite photonic platform based on 2D semiconductor monolayers https://t.co/Ogg8LNVTjl ht
RT @CJoshiPhD: Exciting new work from @Michallipson 's group at Columbia on phase change using monolayer TMDs led by @datta_ipshita ...
Exciting new work from @Michallipson 's group at Columbia on phase change using monolayer TMDs led by @datta_ipshita ...
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
Fantastic work out of the @Michallipson group at @CUSEAS. #nanophotonics #nanotechnology #photonics
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
Great work. @datta_ipshita @Michallipson @CUSEAS
Awesome work! I’ve been waiting to see this one published. Another amazing paper by the @Michallipson group! And welcome to twitter Ipshita! 😊
RT @datta_ipshita: Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their ex…
Our work on changing the phase of light with monolayer transition metal dichalcogenides at wavelengths far from their excitonic resonance is out in @NaturePhotonics https://t.co/QIvdxwnYEs
RT @Underfox3: In this paper, researchers have demonstrated the strong electrorefractive response of monolayer WS2 at near-infrared wavelen…
"The demonstrated composite waveguide platform (with VπL of 0.8 V cm) already outperforms state-of-the-art lithium niobate modulators - the gold standard for current phase modulators. (...)" Pre-print: https://t.co/DZA516znLF https://t.co/z0F4SLRKCe
In this paper, researchers have demonstrated the strong electrorefractive response of monolayer WS2 at near-infrared wavelengths by integrating it on silicon nitride photonic structures to enhance the light–matter interaction with the monolayer #photonics
Low-loss composite photonic platform based on 2D semiconductor monolayers. https://t.co/8CRMjdVTkI