Add to ORKGWe show that the electromagnetic forces generated by the excitations of a mode in graphene-based optomechanical systems are highly tunable by varying the graphene chemical potential, and orders of magnitude stronger than usual non-graphene-based devices, in both attractive and repulsive regimes. We analyze coupled waveguides made of two parallel graphene sheets, either suspended or supported by dielectric slabs, and study the interplay between the light-induced force and the Casimir-Lifshitz interaction. These findings pave the way to advanced possibilities of control and fast modulation for optomechanical devices and sensors at the nano- and microscales
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Graphene is emerging as a broadband optical material which can be dynamically tuned by electrostatic...
It is shown that one can explore the optical conductivity of graphene, together with the ability of ...
International audienceWe show that the electromagnetic forces generated by the excitations of a mode...
Graphene nano-mechanical resonators integrated over waveguides provide a powerful sensing platform b...
Single-layer graphene exhibits exceptional mechanical properties attractive for optomechanics: it co...
Atomically thin materials, which were discovered in 2004 with the isolation of graphene, represent a...
We describe the properties of dielectric couplers wherein tunability is achieved by inserting graphe...
The unique properties of optical waveguides electrically controlled by means of graphene layers are ...
Light and light-matter interaction not only lie at the heart of everyday life, but also are the foun...
ABSTRACT: Graphene is emerging as a broadband optical material which can be dynamically tuned by ele...
Controlling light at the nanoscale is a current research frontier, as advanced nanofabrication techn...
The field of optomechanics studies the interaction between electromagnetic radiation and mechanical ...
Abstract—Local electro-optic modulation of nanophotonic structures is important for many application...
We have recently shown that graphene is unsuitable to replace metals in the current-carrying element...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Graphene is emerging as a broadband optical material which can be dynamically tuned by electrostatic...
It is shown that one can explore the optical conductivity of graphene, together with the ability of ...
International audienceWe show that the electromagnetic forces generated by the excitations of a mode...
Graphene nano-mechanical resonators integrated over waveguides provide a powerful sensing platform b...
Single-layer graphene exhibits exceptional mechanical properties attractive for optomechanics: it co...
Atomically thin materials, which were discovered in 2004 with the isolation of graphene, represent a...
We describe the properties of dielectric couplers wherein tunability is achieved by inserting graphe...
The unique properties of optical waveguides electrically controlled by means of graphene layers are ...
Light and light-matter interaction not only lie at the heart of everyday life, but also are the foun...
ABSTRACT: Graphene is emerging as a broadband optical material which can be dynamically tuned by ele...
Controlling light at the nanoscale is a current research frontier, as advanced nanofabrication techn...
The field of optomechanics studies the interaction between electromagnetic radiation and mechanical ...
Abstract—Local electro-optic modulation of nanophotonic structures is important for many application...
We have recently shown that graphene is unsuitable to replace metals in the current-carrying element...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Graphene is emerging as a broadband optical material which can be dynamically tuned by electrostatic...
It is shown that one can explore the optical conductivity of graphene, together with the ability of ...