Patents by Inventor Ralph H. Page
Ralph H. Page has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 9720102Abstract: The various technologies presented herein relate to a tiled filter array that can be used in connection with performance of spatial sampling of optical signals. The filter array comprises filter tiles, wherein a first plurality of filter tiles are formed from a first material, the first material being configured such that only photons having wavelengths in a first wavelength band pass therethrough. A second plurality of filter tiles is formed from a second material, the second material being configured such that only photons having wavelengths in a second wavelength band pass therethrough. The first plurality of filter tiles and the second plurality of filter tiles can be interspersed to form the filter array comprising an alternating arrangement of first filter tiles and second filter tiles.Type: GrantFiled: April 3, 2015Date of Patent: August 1, 2017Assignee: Sandia CorporationInventors: Ralph H. Page, F. Patrick Doty
-
Patent number: 7386017Abstract: A system for assisting in observing a celestial object and providing synthetic guide star generation. A lasing system provides radiation at a frequency at or near 938 nm and radiation at a frequency at or near 1583 nm. The lasing system includes a fiber laser operating between 880 nm and 960 nm and a fiber laser operating between 1524 nm and 1650 nm. A frequency-conversion system mixes the radiation and generates light at a frequency at or near 589 nm. A system directs the light at a frequency at or near 589 nm toward the celestial object and provides synthetic guide star generation.Type: GrantFiled: November 4, 2003Date of Patent: June 10, 2008Assignee: Lawrence Livermore National Security, LLCInventors: Stephen A. Payne, Ralph H. Page, Christopher A. Ebbers, Raymond J. Beach
-
Publication number: 20040114643Abstract: A system for assisting in observing a celestial object and providing synthetic guide star generation. A lasing system provides radiation at a frequency at or near 938 nm and radiation at a frequency at or near 1583 nm. The lasing system includes a fiber laser operating between 880 nm and 960 nm and a fiber laser operating between 1524 nm and 1650 nm. A frequency-conversion system mixes the radiation and generates light at a frequency at or near 589 nm. A system directs the light at a frequency at or near 589 nm toward the celestial object and provides synthetic guide star generation.Type: ApplicationFiled: November 4, 2003Publication date: June 17, 2004Applicant: The Regents of the University of California.Inventors: Stephen A. Payne, Ralph H. Page, Christopher A. Ebbers, Raymond J. Beach
-
Patent number: 6704331Abstract: A system for assisting in observing a celestial object and providing synthetic guide star generation. A lasing system provides radiation at a frequency at or near 938 nm and radiation at a frequency at or near 1583 nm. The lasing system includes a fiber laser operating between 880 nm and 960 nm and a fiber laser operating between 1524 nm and 1650 nm. A frequency-conversion system mixes the radiation and generates light at a frequency at or near 589 nm. A system directs the light at a frequency at or near 589 nm toward the celestial object and provides synthetic guide star generation.Type: GrantFiled: April 11, 2001Date of Patent: March 9, 2004Assignee: The Regents of the University of CaliforniaInventors: Stephen A. Payne, Ralph H. Page, Christopher A. Ebbers, Raymond J. Beach
-
Patent number: 6570702Abstract: The invention is a ribbon of an optical material with a plurality of cores that run along its length. The plurality of cores includes lasing impurity doped cores in an alternating spaced arrangement with index-modifying impurity doped cores. The ribbon comprises an index of refraction that is substantially equal to or greater than the indices of refraction of said array of lasing impurity doped cores. Index-increasing impurity doped cores promote antiguiding and leaky modes which provide more robust single “supermode” operation.Type: GrantFiled: February 16, 2001Date of Patent: May 27, 2003Assignee: The Regents of the University of CaliforniaInventors: Russel B. Wilcox, Ralph H. Page, Raymond J. Beach, Michael D. Feit, Stephen A. Payne
-
Publication number: 20020148942Abstract: A system for assisting in observing a celestial object and providing synthetic guide star generation. A lasing system provides radiation at a frequency at or near 938 nm and radiation at a frequency at or near 1583 nm. The lasing system includes a fiber laser operating between 880 nm and 960 nm and a fiber laser operating between 1524 nm and 1650 nm. A frequency-conversion system mixes the radiation and generates light at a frequency at or near 589 nm. A system directs the light at a frequency at or near 589 nm toward the celestial object and provides synthetic guide star generation.Type: ApplicationFiled: April 11, 2001Publication date: October 17, 2002Applicant: The Regents of the University of CaliforniaInventors: Stephen A. Payne, Ralph H. Page, Christopher A. Ebbers, Raymond J. Beach
-
Publication number: 20020024727Abstract: The invention is a ribbon of an optical material with a plurality of cores that run along its length. The plurality of cores includes lasing impurity doped cores in an alternating spaced arrangement with index-modifying impurity doped cores. The ribbon comprises an index of refraction that is substantially equal to or greater than the indices of refraction of said array of lasing impurity doped cores. Index-increasing impurity doped cores promote antiguiding and leaky modes which provide more robust single “supermode” operation.Type: ApplicationFiled: February 16, 2001Publication date: February 28, 2002Inventors: Russell B. Wilcox, Ralph H. Page, Raymond J. Beach, Michael D. Feit, Stephen A. Payne
-
Patent number: 6167069Abstract: A thermal gradient-reduced-zone laser includes a laser medium and an optically transparent plate with an index of refraction that is less than the index of refraction of the laser medium. The pump face of the laser medium is bonded to a surface of the optically transparent member. Pump light is directed through the transparent plate to optically pump the solid state laser medium. Heat conduction is mainly through the surface of the laser medium where the heat is introduced by the pump light. Heat flows in a direction opposite to that of the pump light because the side of the laser medium that is opposite to that of the pump face is not in thermal contact with a conductor and thus there is no heat flux (and hence, no temperature gradient), thus producing a thermal gradient-reduced zone.Type: GrantFiled: May 1, 1998Date of Patent: December 26, 2000Assignee: The Regents of the University of CaliforniaInventors: Ralph H. Page, Raymond J. Beach
-
Patent number: 6047013Abstract: The invention comprises a RE-doped MA.sub.2 X.sub.4 crystalline gain medium, where M includes a divalent ion such as Mg, Ca, Sr, Ba, Pb, Eu, or Yb; A is selected from trivalent ions including Al, Ga, and In; X is one of the chalcogenide ions S, Se, and Te; and RE represents the trivalent rare earth ions. The MA.sub.2 X.sub.4 gain medium can be employed in a laser oscillator or a laser amplifier. Possible pump sources include diode lasers, as well as other laser pump sources. The laser wavelengths generated are greater than 3 microns, as becomes possible because of the low phonon frequency of this host medium. The invention may be used to seed optical devices such as optical parametric oscillators and other lasers.Type: GrantFiled: January 22, 1999Date of Patent: April 4, 2000Assignee: The Regents of the University of CaliforniaInventors: Stephen A. Payne, Ralph H. Page, Kathleen I. Schaffers, Michael C. Nostrand, William F. Krupke, Peter G. Schunemann
-
Patent number: 5694500Abstract: Dysprosium-doped metal chloride materials offer laser properties advantageous for use as optical amplifiers in the 1.3 .mu.m telecommunications fiber optic network. The upper laser level is characterized by a millisecond lifetime, the host material possesses a moderately low refractive index, and the gain peak occurs near 1.31 .mu.m. Related halide materials, including bromides and iodides, are also useful. The Dy.sup.3+ -doped metal chlorides can be pumped with laser diodes and yield 1.3 .mu.m signal gain levels significantly beyond those currently available.Type: GrantFiled: October 23, 1995Date of Patent: December 2, 1997Assignee: The Regents of the University of CaliforniaInventors: Ralph H. Page, Kathleen I. Schaffers, Stephen A. Payne, William F. Krupke, Raymond J. Beach
-
Patent number: 5541948Abstract: A new class of solid state laser crystals and lasers are formed of transition metal doped sulfide, selenide, and telluride host crystals which have four fold coordinated substitutional sites. The host crystals include II-VI compounds. The host crystal is doped with a transition metal laser ion, e.g., chromium, cobalt or iron. In particular, Cr.sup.2+ -doped ZnS and ZnSe generate laser action near 2.3 .mu.m. Oxide, chloride, fluoride, bromide and iodide crystals with similar structures can also be used. Important aspects of these laser materials are the tetrahedral site symmetry of the host crystal, low excited state absorption losses and high luminescence efficiency, and the d.sup.4 and d.sup.6 electronic configurations of the transition metal ions. The same materials are also useful as saturable absorbers for passive Q-switching applications. The laser materials can be used as gain media in amplifiers and oscillators; these gain media can be incorporated into waveguides and semiconductor lasers.Type: GrantFiled: November 28, 1994Date of Patent: July 30, 1996Assignee: The Regents of the University of CaliforniaInventors: William F. Krupke, Ralph H. Page, Laura D. DeLoach, Stephen A. Payne
-
Patent number: 5376246Abstract: In an AVLIS process, .sup.91 Zr is selectively removed from natural zirconium by a three-step photoionization wherein Zr atoms are irradiated by a laser beam having a wavelength .lambda..sub.1, selectively raising .sup.91 Zr atoms to an odd-parity E.sub.1 energy level in the range of 16000-19000 cm.sup.-1, are irradiated by a laser beam having a wavelength .lambda..sub.2 to raise the atoms from an E.sub.l level to an even-parity E.sub.2 energy level in the range of 35000-37000 cm.sup.-1 and are irradiated by a laser beam having a wavelength .lambda..sub.3 to cause a resonant transition of atoms from an E.sub.2 level to an autoionizing level above 53506 cm.sup.-1. .lambda..sub.3 wavelengths of 5607, 6511 or 5756 .ANG. will excite a zirconium atom from an E.sub.2 energy state of 36344 cm.sup.-1 to an autoionizing level; a .lambda..sub.3 wavelength of 5666 .ANG. will cause an autoionizing transition from an E.sub.2 level of 36068 cm.sup.-1 ; and a .lambda. .sub.3 wavelength of 5662 .ANG.Type: GrantFiled: December 2, 1992Date of Patent: December 27, 1994Assignee: The United States of America as represented by the United States Department of EnergyInventor: Ralph H. Page