Abstract: An integrated broad spectral band waveguide optical parametric oscillator (OPO) is disclosed. In accordance with a preferred embodiment of the present invention, a single pump laser is used to drive multiple oscillator (OPO) channels. The waveguide OPO is preferably made of orientation patterned gallium arsenide. The pump laser can be, for example, a fiber laser, a diode laser or a solid-state laser.

Abstract: A Ho:YAG crystal laser is disclosed which is doped with less than 2% holmium to reduce the lasing threshold and up-conversion, thereby increasing the operating efficiency of the laser. The laser does not need sensitizer ions so energy mismatches introduced by the sensitizer ions ale eliminated to the thereby increase the efficiency of the laser while minimizing detrimental thermal loading in the laser caused by up-conversion loss processes. The Ho:YAG crystal laser is directly pumped by a Thulium fiber laser at 1.9 ?m at the holmium 5I7 to 5I8 transition to produce an output at 2.1 ?m yielding a very low quantum defect. The laser is embodied as a thulium fiber laser pumped oscillator or an amplifier.

Abstract: The present invention is an amplifier for amplifying an optic signal. The amplifier includes a signal source transmitting the signal, which includes a signal portion in the L-band. The signal first passes into a first signal manipulator. The first signal manipulator is one or more collimators and/or concentrators and, in some embodiments, can include dichroics or optical manipulators known to those skilled in the art. An input pump is aligned to overlap the signal with pump light. From the first signal manipulator, the signal and the pump light intersects the erbium doped crystal, wherein the pump light excites the crystal and the signal impinges the crystal, amplifying the signal.

Abstract: Wavelength conversion apparatus is described that utilizes a Kerr cell to modulate the polarization of a pump laser beam having a first wavelength before the beam is input to an optical parametric oscillator/amplifier wavelength converter to generate a laser beam having a second wavelength. By modulating the polarization of the pump laser beam using the Kerr cell, the optical wavelength converter can be controlled to switch on and off or otherwise amplitude modulate the second wavelength laser beam output from the converter, and to correspondingly amplitude modulate the first wavelength and all other laser beams being output from the converter. In addition, with the pump laser beam and the second wavelength laser beam always being output from said wavelength converter there is a substantially constant thermal load on said wavelength converter creating substantially constant thermal lensing in the wavelength converter crystal that may be easily compensated using optical means.

Abstract: Wavelength conversion apparatus is described that utilizes a Kerr cell to modulate the polarization of a pump laser beam having a first wavelength before the beam is input to a optical parametric oscillator/amplifier wavelength converter to generate a laser beam having a second wavelength. By modulating the polarization of the pump laser beam using the Kerr cell, the optical wavelength converter can be controlled to switch on and off or otherwise amplitude modulate the second wavelength laser beam output from the converter, and to correspondingly amplitude modulate the first wavelength and all other laser beams being output from the converter. In addition, with the pump laser beam and the second wavelength laser beam always being output from said wavelength converter there is a substantially constant thermal load on said wavelength converter creating substantially constant thermal lensing in the wavelength converter crystal that may be easily compensated using optical means.

Abstract: The present invention is an amplifier for amplifying an optic signal. The amplifier includes a signal source transmitting the signal, which includes a signal portion in the L-band. The signal first passes into a first signal manipulator. The first signal manipulator is one or more collimators and/or concentrators and, in some embodiments, can include dichroics or optical manipulators known to those skilled in the art. An input pump is aligned to overlap the signal with pump light. From the first signal manipulator, the signal and the pump light intersects the erbium doped crystal, wherein the pump light excites the crystal and the signal impinges the crystal, amplifying the signal.

Abstract: The present invention is an amplifier for amplifying an optical signal. The signal to be amplified passes into and then from a first optical manipulator. The first manipulator is at least one or more collimators and/or concentrators. The amplifier includes an input pump which produces pump light overlapping the optical signal as the signal passes from the first manipulator. The amplifier further includes a plurality of ion-doped crystalline hosts to be excited by the pump light and impinged by the signal. Finally the signal passes through a second manipulator, which is also one or more collimators and/or concentrators, and exits the amplifier.