Abstract: A fiber optic projection device is provided that includes red, green and blue fiber optic sources, each of which includes at least one fiber amplifier for emitting an amplified signal of a predetermined wavelength. To provide signals that are scalable to high power levels, each fiber optic source can include a master oscillator, a plurality of fiber amplifiers for amplifying the input signals provided by the master oscillator and a combiner for combining the amplified signals emitted by each of the fiber amplifiers. While the fiber amplifier of each fiber optic source can be a dual core fiber that is appropriately doped, the red fiber optic source can include fiber amplifiers that rely upon Raman gain to provide the desired amplification. The red fiber optic source therefore not only includes a master oscillator, but also includes a red subharmonic oscillator for generating signals having a Raman seed wavelength for amplification by the fiber amplifiers.

Abstract: The modularized fiber optic laser system includes at least one master oscillator for producing a master laser signal and a plurality of optical amplification modules that independently amplify portions of the master laser signal. Each optical amplification module includes a plurality of optical fiber amplifiers and at least one pump source associated with each optical fiber amplifier for pumping the respective optical fiber amplifier. The optical amplification module also includes a power source for providing power to the pump sources. Each optical amplification module preferably consumes no more than a first predetermined amount of power during operation. As such, the power source is adapted to provide at least a first predetermined amount of power without recharging and without power generation. Each optical amplification module is also designed to produce no more than a first predetermined amount of heat during operation.

Abstract: A fiber optic receiving antenna is provided that permits the reception of an incident electric field without re-radiating any portion of the incident power. The fiber optic receiving antenna includes a master oscillator for generating a reference signal and a fiber optic interferometer having first and second arms formed of respective optical fibers for receiving the reference signal. The respective electrooptic activity of the optical fibers that form the first and second arms differ such that the signals propagating along the first and second optical fibers will be modulated differently in response to an incident electric field. The fiber optic interferometer also includes a coupler for combining the signals that have propagated along the first and second arms and been differently modulated by the incident electric field.

Abstract: An incoherent fiber optic laser system is provided which provides a high quality output beam which is readily scalable and which can be focused to a target location located relatively near or relatively far without requiring sophisticated optical elements. The incoherent fiber optic laser system includes a plurality of single mode laser sources, such as a plurality of fiber optic amplifiers, for providing single mode laser signals. The laser sources, such as the fiber optic amplifiers, operate incoherently with respect to one another such that the resulting laser signals are also incoherent. The incoherent fiber optic laser system also generally includes a plurality of single mode optical fibers for routing the incoherent laser signals as desired. In addition, the incoherent fiber optic laser system can include a plurality of lenses for collimating the incoherent laser signals provided by respective ones of the single mode optical fibers.

Abstract: The multi-channel fiber amplification system and associated method includes a fiber amplifier which solves problems with power poaching by simultaneously amplifying a pair of optical signals in a similar manner even if the fiber amplifier is saturated. The fiber amplifier, has greater absorption than emission for wavelengths immediately less than a reference wavelength and greater emission than absorption for wavelengths immediately greater than the reference wavelength. The multi-channel fiber amplification system also includes a pump source having a Stokes band which includes at least some wavelengths greater than the reference wavelength of the fiber amplifier. The multi-channel fiber amplification system further includes first and second signal sources for providing first and second signals, respectively, having first and second wavelengths, respectively.