Add to ORKGAntennas have been used for more than a century to control the emission and collection of radio and microwave radiation1. An optical analogue is of great interest as it will allow unique control of absorption and emission2,3 at the nanometre scale4. Despite the intense recent research on optical antennas5–8, one of the main functions of traditional antennas, the directing of radiation, remains a challenge at optical frequencies. Here we experimentally demonstrate control of the emission direction of individual molecules by reversible coupling to an optical monopole antenna. We show how the angular emission of the coupled system is determined by the dominant antenna mode—that is, the antenna design—regardless of molecular orientation. This r...
We present a monopole antenna for optical frequencies (~600 THz) and discuss near-field measurements...
Optical phase-array antennas can be used to control not only the angular distribution but also the p...
We present a resonant optical nanoantenna positioned at the end of a metal-coated glass fiber near-f...
Antennas have been used for more than a century to control the emission and collection of radio and ...
We discuss the use of optical antennas for the modification of the radiative properties of single em...
\u3cp\u3eOptical antennas are nanoscale versions of radio antennas and have emerged in recent years ...
We study the modification of the decay rates of a single dipolar emitter positioned in the vicinity ...
Summary form only given. A single fluorescent molecule in an isotropic medium acts as a dipole radia...
Antennas have been used for over a century as emitters, scatterers and receivers of electromagnetic ...
International audienceWhen coupled to quantum emitters, metallic antennas behave as nanoscale optica...
Nanosized optical antennas have the potential to confine and enhance optical electromagnetic fields,...
Nanometallic optical antennas are rapidly gaining popularity in applications that require exquisite ...
By directing light, optical antennas can enhance light-matter interaction and improve the efficiency...
Abstract—We present a monopole antenna for optical frequen-cies ( 600 THz) and discuss near-field me...
Controlling light from single emitters is an overarching theme of nano-optics. Antennas are routinel...
We present a monopole antenna for optical frequencies (~600 THz) and discuss near-field measurements...
Optical phase-array antennas can be used to control not only the angular distribution but also the p...
We present a resonant optical nanoantenna positioned at the end of a metal-coated glass fiber near-f...
Antennas have been used for more than a century to control the emission and collection of radio and ...
We discuss the use of optical antennas for the modification of the radiative properties of single em...
\u3cp\u3eOptical antennas are nanoscale versions of radio antennas and have emerged in recent years ...
We study the modification of the decay rates of a single dipolar emitter positioned in the vicinity ...
Summary form only given. A single fluorescent molecule in an isotropic medium acts as a dipole radia...
Antennas have been used for over a century as emitters, scatterers and receivers of electromagnetic ...
International audienceWhen coupled to quantum emitters, metallic antennas behave as nanoscale optica...
Nanosized optical antennas have the potential to confine and enhance optical electromagnetic fields,...
Nanometallic optical antennas are rapidly gaining popularity in applications that require exquisite ...
By directing light, optical antennas can enhance light-matter interaction and improve the efficiency...
Abstract—We present a monopole antenna for optical frequen-cies ( 600 THz) and discuss near-field me...
Controlling light from single emitters is an overarching theme of nano-optics. Antennas are routinel...
We present a monopole antenna for optical frequencies (~600 THz) and discuss near-field measurements...
Optical phase-array antennas can be used to control not only the angular distribution but also the p...
We present a resonant optical nanoantenna positioned at the end of a metal-coated glass fiber near-f...