An aircraft light unit is disclosed herein. The aircraft light unit includes a housing having a first side and an opposing second side, a light coupled to the first side of the housing, a circuit board assembly coupled to second side of the housing, a thermoelectric cooler coupled to the circuit board assembly and configured to dissipated heat from the circuit board assembly, and a heat sink disposed over the thermoelectric cooler and configured to dissipate heat from the thermoelectric cooler.

A light source device that radiates excitation light or emitted light by the excitation light, includes: an excitation light source that radiates the excitation light; a fluorescent wheel that includes a phosphor, which emits light in a predetermined wavelength range on reception of the excitation light, in a circumferential direction; a driving device that rotates the fluorescent wheel; and a shielding member that is arranged around the excitation light source and the fluorescent wheel and shields the excitation light and the emitted light, wherein an opening through which outside air is introduced is provided at a part of the shielding member.

A venting apparatus for a containerized candle is disclosed. The venting apparatus includes a thermoelectric device in thermal communication to a heat collector on a first side thereof, and a venting housing structure configured to engage a lip of the containerized candle, wherein the venting housing structure comprises a plurality of exhaust apertures having an upper edge flush with a surface of the heat collector.

A venting apparatus for a containerized candle is disclosed. The venting apparatus includes a thermoelectric device in thermal communication to a heat collector on a first side thereof, and a venting housing structure configured to engage a lip of the containerized candle, wherein the venting housing structure comprises a plurality of exhaust apertures having an upper edge flush with a surface of the heat collector.

A wideband light source includes multiple light sources enclosed within a butterfly package. The butterfly package includes light sources of different types such as a plurality of SLEDs and a plurality of laser diodes. Other types of broadband and narrow band light sources may be included on the same butterfly package in a similar manner. The emitted light from each light source is collimated via a collimating lens and directed towards an optical fiber using a mirror. Each light source produces light in a different spectral range, and the collimated beams from the various light sources are combined into a joined broadband beam by a plurality of corresponding dichroic mirrors. The broadband beam is coupled into a single mode or polarization maintaining fiber which serves as the optical output from the butterfly package. A processor monitors the power output of each light source drives each light source to ensure stability.

A wideband light source includes multiple light sources enclosed within a butterfly package. The butterfly package includes light sources of different types such as a plurality of SLEDs and a plurality of laser diodes. Other types of broadband and narrow band light sources may be included on the same butterfly package in a similar manner. The emitted light from each light source is collimated via a collimating lens and directed towards an optical fiber using a mirror. Each light source produces light in a different spectral range, and the collimated beams from the various light sources are combined into a joined broadband beam by a plurality of corresponding dichroic mirrors. The broadband beam is coupled into a single mode or polarization maintaining fiber which serves as the optical output from the butterfly package. A processor monitors the power output of each light source drives each light source to ensure stability.

A wideband light source includes multiple light sources enclosed within a butterfly package. The butterfly package includes light sources of different types such as a plurality of SLEDs and a plurality of laser diodes. Other types of broadband and narrow band light sources may be included on the same butterfly package in a similar manner. The emitted light from each light source is collimated via a collimating lens and directed towards an optical fiber using a mirror. Each light source produces light in a different spectral range, and the collimated beams from the various light sources are combined into a joined broadband beam by a plurality of corresponding dichroic mirrors. The broadband beam is coupled into a single mode or polarization maintaining fiber which serves as the optical output from the butterfly package. A processor monitors the power output of each light source drives each light source to ensure stability.

A wideband light source includes multiple light sources enclosed within a butterfly package. The butterfly package includes light sources of different types such as a plurality of SLEDs and a plurality of laser diodes. Other types of broadband and narrow band light sources may be included on the same butterfly package in a similar manner. The emitted light from each light source is collimated via a collimating lens and directed towards an optical fiber using a mirror. Each light source produces light in a different spectral range, and the collimated beams from the various light sources are combined into a joined broadband beam by a plurality of corresponding dichroic mirrors. The broadband beam is coupled into a single mode or polarization maintaining fiber which serves as the optical output from the butterfly package. A processor monitors the power output of each light source drives each light source to ensure stability.

An ultraviolet irradiation device includes a light-emitting element, a temperature control element, and a control circuit. The light-emitting element is configured to emit an ultraviolet light. The temperature control element is configured to control a temperature of the light-emitting element. The control circuit is configured to control the temperature control element based on a voltage of the light-emitting element so as to control a peak wavelength of the ultraviolet light.

An ultraviolet irradiation device includes a light-emitting element, a temperature control element, and a control circuit. The light-emitting element is configured to emit an ultraviolet light. The temperature control element is configured to control a temperature of the light-emitting element. The control circuit is configured to control the temperature control element based on a voltage of the light-emitting element so as to control a peak wavelength of the ultraviolet light.