An optical fiber output light source device includes an optical path that is obtained by joining a polarization maintaining amplifying optical fiber to a polarization maintaining dispersion compensating fiber, a single-polarization reflective polarizing beam splitter that is joined to one end of the optical path, a 90 polarization-rotating reflector that is joined to the other end of the optical path, a multiplexer that is inserted in the optical path, and a pumping light source that is joined to the multiplexer. An axis roll connection portion is provided in which a polarization axis of light returned from the single-polarization reflective polarizing beam splitter to the optical path is connected to a polarization maintaining axis of the optical path with a twisting angle therebetween at a predetermined angle.

An optical fiber output light source device includes an optical path that is obtained by joining a polarization maintaining amplifying optical fiber to a polarization maintaining dispersion compensating fiber, a single-polarization reflective polarizing beam splitter that is joined to one end of the optical path, a 90 polarization-rotating reflector that is joined to the other end of the optical path, a multiplexer that is inserted in the optical path, and a pumping light source that is joined to the multiplexer. An axis roll connection portion is provided in which a polarization axis of light returned from the single-polarization reflective polarizing beam splitter to the optical path is connected to a polarization maintaining axis of the optical path with a twisting angle therebetween at a predetermined angle.

A high harmonic optical generator comprising a laser arrangement for emitting a beam of polarized radiation at a fundamental frequency and an optical waveguide having a hollow core for a gaseous harmonic generation medium for the generation of high harmonics of the fundamental frequency, the optical waveguide having an optical propagation axis along the hollow core, the laser arrangement is configured to couple the beam of polarized radiation along the propagation axis of the hollow core optical waveguide to provide a beam of optical driving radiation for the high harmonic generation, the optical driving radiation having a plane of polarization that rotates about the propagation axis.

A high harmonic optical generator comprising a laser arrangement for emitting a beam of polarized radiation at a fundamental frequency and an optical waveguide having a hollow core for a gaseous harmonic generation medium for the generation of high harmonics of the fundamental frequency, the optical waveguide having an optical propagation axis along the hollow core, the laser arrangement is configured to couple the beam of polarized radiation along the propagation axis of the hollow core optical waveguide to provide a beam of optical driving radiation for the high harmonic generation, the optical driving radiation having a plane of polarization that rotates about the propagation axis.

An illumination system is disclosed for providing dual excitation wavelength illumination for non-linear optical microscopy and micro-spectroscopy. The illumination system includes a laser system for providing a first train of pulses at a center optical frequency .sub.1, a frequency converting system for providing at least a second train of pulses at a center optical frequency .sub.2 and a third train of pulses at a center optical frequency .sub.3, where .sub.2 is different from .sub.1 and .sub.3 responsive to the first train of pulses, an amplifier system for amplifying the second train of pulses to provide an amplified second train of pulses, and an adjustment means for adjusting a time delay between the amplified second train of pulses and the third train of pulses for the dual-excitation wavelength illumination.

An illumination system is disclosed for providing dual excitation wavelength illumination for non-linear optical microscopy and micro-spectroscopy. The illumination system includes a laser system for providing a first train of pulses at a center optical frequency .sub.1, a frequency converting system for providing at least a second train of pulses at a center optical frequency .sub.2 and a third train of pulses at a center optical frequency .sub.3, where .sub.2 is different from .sub.1 and .sub.3 responsive to the first train of pulses, an amplifier system for amplifying the second train of pulses to provide an amplified second train of pulses, and an adjustment means for adjusting a time delay between the amplified second train of pulses and the third train of pulses for the dual-excitation wavelength illumination.

An optical component for a broadband radiation source device, the optical component configured for generating a broadband output upon receiving pump radiation and including: a hollow-core photonic crystal fiber (HC-PCF); and a gas mixture filling the HC-PCF, wherein the gas mixture includes a mixture of at least one first gas configured for the generation of the broadband radiation and at least one second gas including or consisting of helium.

An optical component for a broadband radiation source device, the optical component configured for generating a broadband output upon receiving pump radiation and including: a hollow-core photonic crystal fiber (HC-PCF); and a gas mixture filling the HC-PCF, wherein the gas mixture includes a mixture of at least one first gas configured for the generation of the broadband radiation and at least one second gas including or consisting of helium.

An optical tensor core includes a device platform, a broadband, phase-locked, optical frequency comb generator, an array of electro-optic (EO) modulators, wherein a vector, {X.sub.j} and a matrix, {A.sub.ij} are encoded onto optical comb mode fields, and a non-linear waveguide, wherein a sum frequency generation (SFG) operation occurs directly on the optical comb mode fields so as to realize a multiply-accumulate (MAC) operation between the vector {X.sub.j} and the matrix {A.sub.ij}. An integrated system and related methodologies and applications are disclosed.

An optical tensor core includes a device platform, a broadband, phase-locked, optical frequency comb generator, an array of electro-optic (EO) modulators, wherein a vector, {X.sub.j} and a matrix, {A.sub.ij} are encoded onto optical comb mode fields, and a non-linear waveguide, wherein a sum frequency generation (SFG) operation occurs directly on the optical comb mode fields so as to realize a multiply-accumulate (MAC) operation between the vector {X.sub.j} and the matrix {A.sub.ij}. An integrated system and related methodologies and applications are disclosed.