We introduce a new method of the fabrication of surface nanoscale axial photonic (SNAP) microresonators through strong bending of an optical fiber. We experimentally demonstrate that geometric deformation and refractive index variation induced by bending is sufficient for the formation of a SNAP bottle resonator with nanoscale effective radius variation (ERV) along the fiber axis. In our experiment, we bend the optical fiber into a loop and investigate the properties of the fabricated tunable bottle resonator as a function of the loop dimensions. We find that the introduced ERV is approximately proportional to the local curvature of the loop, while the ERV maximum is proportional to the maximum of the loop curvature squared. The advantages ...
We present a novel method based on optical fibre tapering for fabrication of Surface Nanoscale Axial...
It is well known from quantum mechanics that the transmission amplitude of a symmetric double-barrie...
Sensing with optical whispering gallery modes (WGMs) is a rapidly developing detection method in mod...
We introduce a new method of the fabrication of surface nanoscale axial photonic (SNAP) microresonat...
The new manufacturing method for fabrication of Surface Nanoscale Axial Photonics (SNAP) structures ...
Surface nanoscale axial photonics (SNAP) microresonators, which are fabricated by nanoscale effectiv...
Recently introduced surface nanoscale axial photonics (SNAP) makes it possible to fabricate high-Q-f...
We present a simple lithographic method for fabrication of microresonator devices at the optical fib...
Photonic platforms combining the benefits of microscopic dimensions, flexibility, and control are of...
We suggest Surface Nanoscale Axial Photonic fiber resonators for frequency comb generation, and show...
We demonstrate SNAP microresonators fabricated in silica capillary fiber with ultrathin walls by loc...
We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial ph...
We demonstrate a thermally tunable Surface Nanoscale Axial Photonics (SNAP) platform. Stable tuning ...
We present a novel method based on optical fibre tapering for fabrication of Surface Nanoscale Axial...
It is well known from quantum mechanics that the transmission amplitude of a symmetric double-barrie...
Sensing with optical whispering gallery modes (WGMs) is a rapidly developing detection method in mod...
We introduce a new method of the fabrication of surface nanoscale axial photonic (SNAP) microresonat...
The new manufacturing method for fabrication of Surface Nanoscale Axial Photonics (SNAP) structures ...
Surface nanoscale axial photonics (SNAP) microresonators, which are fabricated by nanoscale effectiv...
Recently introduced surface nanoscale axial photonics (SNAP) makes it possible to fabricate high-Q-f...
We present a simple lithographic method for fabrication of microresonator devices at the optical fib...
Photonic platforms combining the benefits of microscopic dimensions, flexibility, and control are of...
We suggest Surface Nanoscale Axial Photonic fiber resonators for frequency comb generation, and show...
We demonstrate SNAP microresonators fabricated in silica capillary fiber with ultrathin walls by loc...
We develop a theory of optical frequency comb generation in ultra-compact surface nanoscale axial ph...
We demonstrate a thermally tunable Surface Nanoscale Axial Photonics (SNAP) platform. Stable tuning ...
We present a novel method based on optical fibre tapering for fabrication of Surface Nanoscale Axial...
It is well known from quantum mechanics that the transmission amplitude of a symmetric double-barrie...
Sensing with optical whispering gallery modes (WGMs) is a rapidly developing detection method in mod...