Understanding the optical gain and mode-selection mechanisms in semiconductor nanowire (NW) lasers is key to the development of high-performance nanoscale oscillators, amplified semiconductor/plasmon lasers and single photon emitters, and so forth. Modification of semiconductor band structure/bandgap through electric field modulation, elemental doping, or alloying semiconductors has so far gained limited success in achieving output mode tunability of the NW laser. One stifling issue is the considerable optical losses induced in the NW cavities by these extrinsic methods that limit their applicability. Herein we demonstrate a new optical self-feedback mechanism based on the intrinsic self-absorption of the gain media to achieve low-loss, roo...
Realizing visionary concepts of integrated photonic circuits, nanospectroscopy, and nanosensing will...
ABSTRACT: Semiconductor nanowires, due to their unique electronic, optical, and chemical properties,...
Multicolor plasmonic nanowire lasers enable below diffraction-limit directional optical waveguiding ...
Understanding the optical gain and mode-selection mechanisms in semiconductor nanowire (NW) lasers i...
Understanding the optical gain and mode-selection mechanisms in semiconductor nanowire (NW) lasers i...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
Semiconductor nanowires (or other wire-like nanostructures, including nano-ribbons and nanobelts) sy...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) ...
created version of a work that has been peer reviewed and accepted for publication by Nano Letters, ...
Semiconductor NanoWire (NW) lasers are highly promising for making new generation coherent light so...
Since the beginning of the new millennium, the nano-materials community has witnessed an exponential...
Realizing visionary concepts of integrated photonic circuits, nanospectroscopy, and nanosensing will...
Realizing visionary concepts of integrated photonic circuits, nanospectroscopy, and nanosensing will...
ABSTRACT: Semiconductor nanowires, due to their unique electronic, optical, and chemical properties,...
Multicolor plasmonic nanowire lasers enable below diffraction-limit directional optical waveguiding ...
Understanding the optical gain and mode-selection mechanisms in semiconductor nanowire (NW) lasers i...
Understanding the optical gain and mode-selection mechanisms in semiconductor nanowire (NW) lasers i...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) l...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
Semiconductor nanowires (or other wire-like nanostructures, including nano-ribbons and nanobelts) sy...
Designing lasing wavelengths and modes is essential to the practical applications of nanowire (NW) ...
created version of a work that has been peer reviewed and accepted for publication by Nano Letters, ...
Semiconductor NanoWire (NW) lasers are highly promising for making new generation coherent light so...
Since the beginning of the new millennium, the nano-materials community has witnessed an exponential...
Realizing visionary concepts of integrated photonic circuits, nanospectroscopy, and nanosensing will...
Realizing visionary concepts of integrated photonic circuits, nanospectroscopy, and nanosensing will...
ABSTRACT: Semiconductor nanowires, due to their unique electronic, optical, and chemical properties,...
Multicolor plasmonic nanowire lasers enable below diffraction-limit directional optical waveguiding ...