Patents Assigned to Pavilion Integration Corporation
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Publication number: 20240036338Abstract: Devices, systems, and methods for generating high power flattop laser beams are disclosed. Schematics and arrangements of diodes, fast axis and slow axis cylindrical lens arrays, collimation lenses, and other optics are described and disclosed. Also disclosed are methods of generating flattop beams for myriad applications.Type: ApplicationFiled: August 22, 2021Publication date: February 1, 2024Applicant: Pavilion Integration CorporationInventors: Ningyi LUO, Jihchuang Robin HUANG
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Patent number: 11880056Abstract: A high power uniform light beam is generated on an oblique plane by one or more diode lasers and 2 or more light pipes. The light pipes may be trapezoidal so that the illuminated area is substantially square. The light pipes may be elliptical so that the illuminated area is substantially circular.Type: GrantFiled: June 26, 2022Date of Patent: January 23, 2024Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Jihchuang Robin Huang
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Publication number: 20230402810Abstract: The present invention provides a way to use anisotropic laser gain media to make a laser that can lase in two longitudinal modes at different wavelengths with orthogonal polarizations. The two longitudinal mode (LM) laser output can be separated to generate two single LM outputs. This type of lasers can also be used to generate low noise continuous wave (CW) harmonics through intracavity harmonic generation.Type: ApplicationFiled: March 7, 2023Publication date: December 14, 2023Applicant: Pavilion Integration CorporationInventors: Haiwen Wang, Ningyi Luo, Jihchuang Robin Huang
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Publication number: 20230387648Abstract: Devices, systems, and methods for generating ultraviolet lasers are disclosed. Schematics and arrangements of a combination structure implementation that often uses an intra-cavity second harmonic generation (SHG) element and a UV extractor often with a birefringent crystal (BC) to extract the UV light are described and disclosed. A Nonlinear crystal (NLC) may serve as the SHG element and volume Bragg gating (VBG) may be included to control pump light characteristics.Type: ApplicationFiled: October 11, 2021Publication date: November 30, 2023Applicant: Pavilion Integration CorporationInventors: Ningyi LUO, Jihchuang Robin HUANG
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Publication number: 20230335969Abstract: This invention proposes to use a specially designed layered nonlinear optic (LNO) for intracavity harmonic generation. The LNO generates the harmonic and guides the generated harmonic beam to a different path from the fundamental beam path with total internal reflection, a phenomenon that all lights are reflected when lights in one (“internal”) optic strike sufficiently obliquely against the interface with a second (“external”) optic, in which the refractive index is lower than that in the internal optic. No coating is necessary for the harmonic inside the fundamental beam laser cavity. The generated harmonic beam does not travel through any surface inside the fundamental beam cavity, either. Hence this invention improves the reliability of intracavity harmonic generation laser especially if the harmonic is in the UV range.Type: ApplicationFiled: August 24, 2022Publication date: October 19, 2023Applicant: Pavilion Integration CorporationInventors: Haiwen Wang, Jihchuang Robin Huang, Ningyi Luo
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Publication number: 20230288630Abstract: Arrangements of multi-core fibers, devices, and systems with two or more cores, defined by a core separation of less than a cross-sectional diameter of a discrete single core unmodified fiber, and methods of using are provided and/or described herein. Arrangements of fibers, devices, and systems with three or more cores, defined by a core separation of less than a cross-sectional diameter of a discrete single core fiber, and methods of using are provided and/or described herein. Also, disclosed are methods of manufacturing and joining two or more single rectangular (or square core) fibers to form two or more lines of illumination for myriad applications.Type: ApplicationFiled: August 6, 2021Publication date: September 14, 2023Applicant: Pavilion Integration CorporationInventors: Ningyi LUO, Jihchuang Robin HUANG
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Publication number: 20230141759Abstract: A high power uniform light beam is generated on an oblique plane by one or more diode lasers and 2 or more light pipes. The light pipes may be trapezoidal so that the illuminated area is substantially square. The light pipes may be elliptical so that the illuminated area is substantially circular.Type: ApplicationFiled: June 26, 2022Publication date: May 11, 2023Applicant: Pavilion Integration CorporationInventors: Ningyi Luo, Jihchuang Robin Huang
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Publication number: 20220209487Abstract: UV laser devices, systems, and methods are shown and/or described herein. Included are a method, device or system for VECSEL and MECSEL lasers including both barrier-pumped and in-well pumped lasers. Also disclosed is a method of manufacturing gain chips for use in the lasers, arrangements of lasers, and selection of proper non-linear crystal (NLC) for use in the device.Type: ApplicationFiled: March 11, 2020Publication date: June 30, 2022Applicant: Pavilion Integration CorporationInventors: Ningyi LUO, Jihchuang HUANG
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Publication number: 20190137778Abstract: A speckle laser device based on low time coherence and low spatial coherence, and a preparation method therefor. The speckle laser device comprises a radio frequency modulator (1), a laser device (2), a diffracting optical element (3) and a focusing lens (4) that are coaxially and sequentially disposed on a same optical platform. The diffracting optical element (3) is located in the emergent direction of the laser device (2), the radio frequency modulator (1) modulates the laser device (2), and laser (001) modulated by the radio frequency modulator (1) enters the diffracting optical element (3). Laser beams emerging from the diffracting optical element (3) are zero-coherent speckle laser beams (002), the laser beams (002) enter the focusing lens (4), and the laser emerging from the focusing lens (4) forms a focused speckle laser (003).Type: ApplicationFiled: April 13, 2017Publication date: May 9, 2019Applicant: PAVILION INTEGRATION CORPORATION (SUZHOU)Inventors: Ningyi LUO, Hui FAN
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Patent number: 7813390Abstract: An injection seeding laser system in which the seeded laser has a monolithic structure without any moving parts. The seeder emits light whose wavelength is swept in a radio frequency (RF) over a range that covers one or more longitudinal mode(s) of the seeded laser, which eliminates the need for active cavity length control and phase locking between the injected and output signals. The gain medium of the seeded laser is an active medium whose population is substantially inversed in response to an excitation, which can be electrical or optical. Time synchronization between the injected seeds and the triggering signal to the slave is generally not required. The present invention enables fiber MOPO that produces high power laser pulses in an efficient and cost-effective manner.Type: GrantFiled: August 29, 2007Date of Patent: October 12, 2010Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu
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Publication number: 20100091806Abstract: A method for improving spectral, spatial, and temporal stability of semiconductor lasers and their beam profile uniformity based on statistical average of plural transient or unsteady state longitudinal and lateral modes that are continuously perturbed. A laser module implementing the method comprises a semiconductor laser, a drive circuit generating RF-modulated drive current, and an automatic power control loop for producing stable, low noise and uniform or nearly uniform illumination field along one or two dimensions.Type: ApplicationFiled: October 10, 2008Publication date: April 15, 2010Applicant: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu, Hui Fan, Jindong Li
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Publication number: 20090201952Abstract: An all-solid-state laser system produces coherent DUV radiation through a third or fourth harmonic generation. The fundamental wavelength is generated by a slave laser optically pumped by one or more light source(s) of high density array(s) and is stabilized by injecting optical seeds whose wavelength is rapidly swept to cover the fundamental wavelength. The pump effects are enhanced by a pump chamber that recycles unabsorbed pump light. The present invention enables DUV pulses with a width shorter than 1 ns and a repetition rate higher than 100 kHz. The output DUV wavelength is adjustable by selecting an appropriate seeder.Type: ApplicationFiled: February 12, 2008Publication date: August 13, 2009Applicant: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu
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Patent number: 7542489Abstract: A method for effective injection seeding is based on continuous wavelength sweeping for matching the injected seeds with one or more longitudinal mode(s) of the slave oscillator in every pump pulse. This is achieved through rapidly varying laser drive current resulted from RF modulation. Depending on the modulation parameters, the seed may be operated at quasi-CW or pulsed mode, with a narrow or broad bandwidth, for injection seeding of single longitudinal mode or multimode. The wavelength and bandwidth of the laser output can be tuned according to the needs. From pulse to pulse, the master-slave resonance may occur at different wavelengths upon cavity length fluctuations. Cavity length control via complicated feedback devices and phase locking schemes are consequently not required.Type: GrantFiled: June 29, 2005Date of Patent: June 2, 2009Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu, Minzheng Wo, Shaoping Lu
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Patent number: 7535937Abstract: A method for producing low-noise laser output at various wavelengths and/or in various operation modes in a monolithic microchip laser comprises schemes of generating two fundamental beams in separate cavities, precise intracavity beam combination based on the walk-off effect in birefringent crystal, and wavelength conversion in nonlinear optical crystals. The fundamental beams are produced from light sources selected upon the desired wavelengths, polarizations, and other features related to the laser output. Low-noise laser devices operated in SLM or with spectra of flat-top or desired bandwidths are constructed according to the method. High-volume fabrication is feasible. Apparatus of compact size and efficient frequency conversion is demonstrated with various configurations including those for generating low-noise 491 nm laser, as a replacement of Argon ion laser.Type: GrantFiled: March 18, 2006Date of Patent: May 19, 2009Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu, Shaoping Lu
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Patent number: 7535938Abstract: A method for producing low-noise laser output at wavelengths ranging from IR through visible to UV in various operation modes from a monolithic microchip laser comprises schemes of (1) generating one or two fundamental beam(s) from light source(s) selected upon the desired wavelength(s), polarization(s), and other features related to the desired laser output; (2) intracavity beam combination/separation due to the walk-off effect in one or more birefringent crystal(s) transparent to the propagating lights and highly anisotropic; (3) wavelength conversion in one or more nonlinear optical crystal(s); (4) compact and efficient pump source(s); and (5) minimization of intracavity loss/noise. One resonator cavity supports only one fundamental beam, which eliminates the green problem. The gain media can be selected from an extensive group of materials including isotropic and naturally birefringent crystals, with polarization dependent or independent laser emissions.Type: GrantFiled: August 14, 2006Date of Patent: May 19, 2009Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu
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Patent number: 7522651Abstract: Solid-state laser(s) pumped by incoherent, monochromatic light from sources such as LED arrays and integrating technologies such as high power LED arrays and solid-state laser materials in conjunction with efficient and uniform absorption of pumping energies through a diffusing pump chamber. The resulting laser(s) are compact, robust, low-cost, and able to produce high power output for practical applications. It may efficiently operate over wide temperature and performance ranges, at CW or pulse modes, even with ultra short pulse width and/or extremely high repetition rates. Our inventive structure(s) is/are highly flexible and applicable to a large group of lasing media including those with very short upper state life times. Advantageously, they may be applied to a plethora of laser systems at wavelengths that have important applications and unavailable to other direct pumping technologies.Type: GrantFiled: February 7, 2005Date of Patent: April 21, 2009Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu, Shaoping Lu, Feng Zhou
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Publication number: 20090097507Abstract: An efficient and low-noise solid-state laser is optically pumped by one or more laser diode(s) driven by RF modulated current. The solid-state laser operation is stabilized by the pump source stable in both spectrum and intensity, in conjunction with automatic power control wherein the feedback loop accurately reflects the true drift in the output power. Moreover, the pump efficiency is optimized and the optical noise is minimized by adjusting the diode operation temperature such that the pump wavelength coincides with the absorption peak of the gain medium. By internally or externally modulating the amplitude of the drive current, the pump diode(s) operate in pulsed mode with controllable shape, width, repetition rate, and pulse-to-pulse intervals, which enables essentially constant optical energy produced from each pulse of the solid-state laser in high repetition rates with variable pulse-to-pulse intervals.Type: ApplicationFiled: October 15, 2007Publication date: April 16, 2009Applicant: Pavilion Integration CorporationInventors: Sheng-Bai Zhu, Ningyi Luo, Jing Yu
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Publication number: 20090059968Abstract: An injection seeding laser system in which the seeded laser has a monolithic structure without any moving parts. The seeder emits light whose wavelength is swept in a radio frequency (RF) over a range that covers one or more longitudinal mode(s) of the seeded laser, which eliminates the need for active cavity length control and phase locking between the injected and output signals. The gain medium of the seeded laser is an active medium whose population is substantially inversed in response to an excitation, which can be electrical or optical. Time synchronization between the injected seeds and the triggering signal to the slave is generally not required. The present invention enables fiber MOPO that produces high power laser pulses in an efficient and cost-effective manner.Type: ApplicationFiled: August 29, 2007Publication date: March 5, 2009Applicant: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu
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Patent number: 7468998Abstract: A low-noise laser diode module comprises a laser diode for emitting light with a wavelength in the range from UV to IR, a drive circuit for injecting electrical current into said diode, and an automatic power control circuit for monitoring and adjusting laser output power using front-facet photodiode external to the laser assembly and a feedback loop. Said drive circuit produces injection current modulated by an RF signal with variable degrees, depending on the wavelength to be stabilized, the desired spectral bandwidths of the laser output, and/or other applications. Said RF signal can be a sine wave, a distorted sine wave, a rectified sine wave, a non-sine wave, a series of narrow pulses, or repetitive shunt. The present invention encompasses a method for producing stable, broadband, and low-coherent laser. The present invention also encompasses a method for producing stable narrowband or single longitudinal mode laser.Type: GrantFiled: March 22, 2006Date of Patent: December 23, 2008Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu, Joshua Ji
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Patent number: 7457330Abstract: A method for reducing speckle noise of a monolithic microchip laser with intracavity beam combining and sum frequency mixing is based on time averaging of uncorrelated speckle patterns generated from a large number of independent longitudinal modes and comprises schemes including selection of gain media and nonlinear optical materials to support broadband sum frequency mixing; adoption of gain-conjugated and/or chirped mirrors for flat-top spectra and/or mode phase diversification; multimode laser operation introduced by RF modulation; and multiplication of source modes in frequency mixing process featured with degeneration free and narrowed/uneven intervals. A device and an apparatus for generating low speckle noise red, green, blue lasers adaptable for color display systems are developed based on the inventive method.Type: GrantFiled: June 15, 2006Date of Patent: November 25, 2008Assignee: Pavilion Integration CorporationInventors: Ningyi Luo, Sheng-Bai Zhu