Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A system is provided, the system including at least one integrated optical circuit (IOC) formed from at least one material, and a support-structure configured to support the at least one IOC to couple light between other components. A performance of the at least one IOC is improved by treatment with at least one selected gas.

Abstract: A stabilized integrated optical circuit is presented. The stabilized integrated optical circuit includes at least one integrated optical chip formed from at least one inorganic material, a stabilizing-polarizable-fill gas, and an enclosure enclosing the at least one integrated optical chip and the stabilizing-polarizable-fill gas. At least one surface of the at least one integrated optical chip is modified by a treatment with at least one treatment gas selected to stabilize defects on the at least one surface. The stabilizing-polarizable-fill gas includes N2O and at least one polarizable material.

Abstract: One embodiment is directed towards a method of navigating a body. The method includes determining a respective measured direction of each of a plurality of celestial objects with respect to the body based on an output of one or more star tracking sensors mounted to the body. Calculating an expected direction of at least one of the plurality of celestial objects with respect to the body based on a current navigation solution for the body. Calculating an updated navigation solution for the body based on the expected direction of the at least one celestial object, the measured direction of the plurality of celestial objects, and an output of one or more inertial sensors mounted to the body.

Abstract: A fiber light source comprises a laser pump configured to generate a pump laser beam at a predetermined wavelength; a first segment of rare earth doped fiber; a second segment of rare earth doped fiber; and an optical coupler coupled to a first end of the first segment and a first end of the second segment. The optical coupler is configured to split the pump laser beam based on a power coupling ratio. The first segment generates a first stimulated emission having a first mean wavelength sensitivity to pump laser power fluctuations and the second segment generates a second stimulated emission having a second mean wavelength sensitivity to pump laser power fluctuations such that a combined stimulated emission is approximately insensitive to pump laser power fluctuations.

Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A fiber light source comprises a laser pump configured to generate a pump laser beam at a predetermined wavelength; a first segment of rare earth doped fiber; a second segment of rare earth doped fiber; and an optical coupler coupled to a first end of the first segment and a first end of the second segment. The optical coupler is configured to split the pump laser beam based on a power coupling ratio. The first segment generates a first stimulated emission having a first mean wavelength sensitivity to pump laser power fluctuations and the second segment generates a second stimulated emission having a second mean wavelength sensitivity to pump laser power fluctuations such that a combined stimulated emission is approximately insensitive to pump laser power fluctuations.

Abstract: One embodiment is directed towards a method of navigating a body. The method includes determining a respective measured direction of each of a plurality of celestial objects with respect to the body based on an output of one or more star tracking sensors mounted to the body. Calculating an expected direction of at least one of the plurality of celestial objects with respect to the body based on a current navigation solution for the body. Calculating an updated navigation solution for the body based on the expected direction of the at least one celestial object, the measured direction of the plurality of celestial objects, and an output of one or more inertial sensors mounted to the body.

Abstract: A stabilized integrated optical circuit is presented. The stabilized integrated optical circuit includes at least one integrated optical chip formed from at least one inorganic material, a stabilizing-polarizable-fill gas, and an enclosure enclosing the at least one integrated optical chip and the stabilizing-polarizable-fill gas. At least one surface of the at least one integrated optical chip is modified by a treatment with at least one treatment gas selected to stabilize defects on the at least one surface. The stabilizing-polarizable-fill gas includes N2O and at least one polarizable material.

Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A dispersion managed interferometric fiber optic gyroscope comprising: a coupler coupled to the broadband light source via a first input fiber; an IOC comprising: a beamsplitter that directs the input signal to a first output and a second output; a combiner configured to combine a first return signal from the first output and a second return signal from the second output into a combined return signal; an integrated optical circuit input coupled to the coupler via a second input fiber; a fiber optic gyroscope sensing coil coupled to a first pigtail fiber and second pigtail fiber, the sensing coil comprising sensing fibers, wherein at least one dispersion slope of at least one of the first input fiber, second input fiber, first pigtail fiber, second pigtail fiber, and the sensing fibers is selected such that the signals at the IOC input has a second order coherence substantially equal to two.

Abstract: A dispersion managed interferometric fiber optic gyroscope comprising: a coupler coupled to the broadband light source via a first input fiber; an IOC comprising: a beamsplitter that directs the input signal to a first output and a second output; a combiner configured to combine a first return signal from the first output and a second return signal from the second output into a combined return signal; an integrated optical circuit input coupled to the coupler via a second input fiber; a fiber optic gyroscope sensing coil coupled to a first pigtail fiber and second pigtail fiber, the sensing coil comprising sensing fibers, wherein at least one dispersion slope of at least one of the first input fiber, second input fiber, first pigtail fiber, second pigtail fiber, and the sensing fibers is selected such that the signals at the IOC input has a second order coherence substantially equal to two.

Abstract: A system is provided, the system including at least one integrated optical circuit (IOC) formed from at least one material, and a support-structure configured to support the at least one IOC to couple light between other components. A performance of the at least one IOC is improved by treatment with at least one selected gas.

Abstract: A rare-earth-doped-fiber light source with wavelength stability includes a rare-earth doped fiber and an undoped fiber placed in proximity to each other and having the same host material and the same cross-sectional structure, a coupler configured to direct a first portion of pump power from a pump laser to the undoped fiber so the first portion of pump power was twice passed through the coupler; and a wavelength division multiplexer configured to input a second portion of pump power from the pump laser to the rare-earth doped fiber. The rare-earth doped fiber is an active medium for the broadband light source and includes a fiber core doped with rare-earth ions. The undoped fiber includes a rare-earth-dopant-free fiber core. The length of the undoped fiber is one of the same as that of the doped fiber or optimized to match a radiation sensitivity of the doped fiber.

Abstract: A method, system, and computer program product for providing protected remote access from a remote access client to a remote access server over a computer network through a plurality of inspections. A remote access configuration file is created for the remote access client. A digital hash of the configuration file is then generated. The digital hash is compared with a configuration file stored at a predefined web location. If the comparison results in a match between the digital hash and the stored configuration file, a digital hash comparison is performed between an encrypted remote access configuration file and an encrypted configuration file stored at the predefined web location. If the plurality of inspections are passed, the remote access client is released from a quarantine state and a virtual private network (VPN) connection to the remote access server is established.

Abstract: A laser apparatus comprises a pump laser device, and a polarizing optical fiber having a proximal end and a distal end, with the polarizing optical fiber coupled to the pump laser device at the proximal end. At least one output reflector is written on the polarizing optical fiber toward the distal end. Only one polarization mode is supported when a laser beam is transmitted through the polarizing optical fiber from the pump laser device.

Abstract: A rare-earth-doped-fiber light source with wavelength stability includes a rare-earth doped fiber and an undoped fiber placed in proximity to each other and having the same host material and the same cross-sectional structure, a coupler configured to direct a first portion of pump power from a pump laser to the undoped fiber so the first portion of pump power was twice passed through the coupler; and a wavelength division multiplexer configured to input a second portion of pump power from the pump laser to the rare-earth doped fiber. The rare-earth doped fiber is an active medium for the broadband light source and includes a fiber core doped with rare-earth ions. The undoped fiber includes a rare-earth-dopant-free fiber core. The length of the undoped fiber is one of the same as that of the doped fiber or optimized to match a radiation sensitivity of the doped fiber.

Abstract: Systems and methods for environmentally insensitive high-performance fiber-optic gyroscopes are provided. In one embodiment, a loop closure electronics apparatus for a fiber optic gyroscope having an optical phase modulator characterized by a transfer function that includes an error component of at least second order is provided. The apparatus comprises: a first digital circuit that generates a digital bias modulation signal; a second digital circuit that generates a digital feedback signal; at least one digital-to-analog converter that produces an electrical signal that drives the phase modulator from the digital bias modulation signal and the digital feedback signal; and a compensator that includes an analog filter of at least second order and a digital filter of at least second order, wherein the analog filter and the digital filter pre-filter the electrical signal to compensate for the error component.