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37 results for “albertogcurto”
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#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).
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#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).
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#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).
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#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).
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#Chirality of #BioMolecules (left/right-handedness) is central to life. Light can be chiral too, a tool to interact with them. Light can also excite spins in #2dSemiconductors and rotate objects. #Nanophotonics can enhance these very weak effects. We surprisingly found that different phenomena, all relying on chirality of light, are incompatible! And found design rules for #metasurfaces for enhancing different chiral interactions (led by @albertogcurto).
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Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103
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Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103
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Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103
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Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103
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Scientists use #nanophotonics to improve light emission. The strong electric field near nanostructures can excite molecules and extract light from them more efficiently, creating better light sources. We usually model this by assuming that the emitter stays fixed. But in many practical materials, emitting #excitons move around! We found a recipe for making such devices better by figuring out how to do calculations more correctly (led by @albertogcurto): https://onlinelibrary.wiley.com/doi/10.1002/adom.202200103
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A round-up of some of the #photonics researchers that recently hopped onto the mastodon:
Rachel Grange
@rachelgrange
Matthew Sfeir
@sfeirlab
Xuemei Gu
@Xuemei
Matthew Lew
@lewlabEnjoy the ride on this beast!
#nanophotonics #2DMaterials #nanoscience #photophysics #microscopy #quantum
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A round-up of some of the #photonics researchers that recently hopped onto the mastodon:
Rachel Grange
@rachelgrange
Matthew Sfeir
@sfeirlab
Xuemei Gu
@Xuemei
Matthew Lew
@lewlabEnjoy the ride on this beast!
#nanophotonics #2DMaterials #nanoscience #photophysics #microscopy #quantum
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A round-up of some of the #photonics researchers that recently hopped onto the mastodon:
Rachel Grange
@rachelgrange
Matthew Sfeir
@sfeirlab
Xuemei Gu
@Xuemei
Matthew Lew
@lewlabEnjoy the ride on this beast!
#nanophotonics #2DMaterials #nanoscience #photophysics #microscopy #quantum
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@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.
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@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.
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@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.
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@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.
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@razimantv
Raziman also took into account that #excitons interact with each other through exciton-exciton annihilation, which normally decreases light emission at high intensities.So he generalized the theory of Purcell enhancement to be more precise for a range of excitonic materials like #2DSemiconductors, #perovskites, #OrganicCrystals or #CarbonNanotubes.
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A round-up of some of the fantastic #photonics researchers that recently joined Mastodon:
Delia Milliron @DeliaMilliron
Florian Marquardt @FMarquardtGroup
Sylvain Gigan
@sylvaingigan
John Dudley @johnmdudley
Turgut Durduran
@ulugeyik
Susana Rocha
@Rocha_Lab#optics #nanophotonics #biophotonics #microscopy #QuantumOptics #physics
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A round-up of some of the fantastic #photonics researchers that recently joined Mastodon:
Delia Milliron @DeliaMilliron
Florian Marquardt @FMarquardtGroup
Sylvain Gigan
@sylvaingigan
John Dudley @johnmdudley
Turgut Durduran
@ulugeyik
Susana Rocha
@Rocha_Lab#optics #nanophotonics #biophotonics #microscopy #QuantumOptics #physics
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A round-up of some of the fantastic #photonics researchers that recently joined Mastodon:
Delia Milliron @DeliaMilliron
Florian Marquardt @FMarquardtGroup
Sylvain Gigan
@sylvaingigan
John Dudley @johnmdudley
Turgut Durduran
@ulugeyik
Susana Rocha
@Rocha_Lab#optics #nanophotonics #biophotonics #microscopy #QuantumOptics #physics
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"We hit the road and ended up in Argentina
Where is Iguazú?
...
We wanted to find the waterfall on the lamp. We found out it was at Iguazú
We planned to see it and then go home, but we lost our way"
💔
Happy together ,
(Wong Kar Wai 1997)
#illustration #inlovewiththisfilm #iguazu #argentina #buenosaires #happytogether #film #1997 #wongkarwai #aquarelle #lgbtfilm #aquarellepainting #cinema #cine #albertomc #albertomcurto -
Jane : for a moment, I thought I recognized your voice
[...]
No, I'm not afraid of heights. I'm afraid of fallin.
Paris-Texas
.
#fanmade #aquarellepainting #watercolor #paristexas #dessin #fokinending #dream #illustration #bdcommunity #dibujo #acuarela #youdontknowme #amoment #albertomc #albertomcurto #paristexas #film #jane -
Jane : for a moment, I thought I recognized your voice
[...]
No, I'm not afraid of heights. I'm afraid of fallin.
Paris-Texas
.
#fanmade #aquarellepainting #watercolor #paristexas #dessin #fokinending #dream #illustration #bdcommunity #dibujo #acuarela #youdontknowme #amoment #albertomc #albertomcurto #paristexas #film #jane -
Jane : for a moment, I thought I recognized your voice
[...]
No, I'm not afraid of heights. I'm afraid of fallin.
Paris-Texas
.
#fanmade #aquarellepainting #watercolor #paristexas #dessin #fokinending #dream #illustration #bdcommunity #dibujo #acuarela #youdontknowme #amoment #albertomc #albertomcurto #paristexas #film #jane -
- in the silence the waves came in over my head
#anotherdrawing#2021 #sketch #drawing #watercolor #artwork #albertomc #albertomcurto #confinement #aquarelle #dessin #dibujo #acuarela #drawingin2019 #sea #metro #howtodesappear