Patents by Inventor John F. Klem
John F. Klem 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).
-
Publication number: 20230335677Abstract: An interband cascade (IC) optoelectronic device constructed to have a plurality of IC stages, wherein each of the IC stages comprises: a hole injector; an electron injector; an active region coupled to the hole injector and the electron injector and comprising a first layer, wherein the first layer comprises a first material, and wherein the first material comprises InAsP or AlInAsP; a conduction band running through the hole injector, the electron injector, and the active region; and a valence band running through the hole injector, the electron injector, and the active region. In certain embodiments, the IC optoelectronic device may be a laser (ICL), a light-emitting diode (LED), a superluminescent light-emitting diode (SLED), a photodector, or a photovoltaic device.Type: ApplicationFiled: June 22, 2023Publication date: October 19, 2023Inventors: Rui Q. Yang, John F. Klem
-
Publication number: 20230268721Abstract: An ICL comprises: a plurality of IC stages, wherein each of the IC stages comprises: a hole injector; an electron injector; an active region coupled to the hole injector and the electron injector and comprising a first layer, wherein the first layer comprises a first material, and wherein the first material comprises InAsP or AlInAsP; a conduction band running through the hole injector, the electron injector, and the active region; and a valence band running through the hole injector, the electron injector, and the active region.Type: ApplicationFiled: February 13, 2023Publication date: August 24, 2023Inventors: Rui Q. Yang, John F. Klem
-
Patent number: 11314145Abstract: An apparatus and method are provided for generating harmonic light from a pump beam that is impinged on a metasurface comprising a plurality of all-dielectric resonator bodies. A multiple quantum well structure formed in each resonator body includes asymmetric coupled quantum wells having intersubband transition frequencies that couple to Mie resonances of the resonator bodies.Type: GrantFiled: May 26, 2021Date of Patent: April 26, 2022Assignee: National Technology & Engineering Solutions of Sandia, LLCInventors: Raktim Sarma, Igal Brener, Michael B. Sinclair, Salvatore Campione, John F. Klem
-
Patent number: 9929293Abstract: In a superlattice (SL) photodetector, each period of the SL includes first and second semiconductor layers having different compositions, at least one of which comprises indium arsenide (InAs). At least one of these two semiconductor layers has a graded composition. In embodiments, the first semiconductor layer comprises InAs and the second semiconductor layer is a graded layer comprising indium arsenide antimonide (InAsSb), wherein the antimony (Sb) concentration is varied. In examples, the Sb concentration in the second layer gradually increases from the top and bottom toward the middle of the layer.Type: GrantFiled: April 4, 2017Date of Patent: March 27, 2018Assignee: National Technology & Engineering Solutions of Sandia, LLCInventors: Jin K. Kim, John F. Klem, Eric A. Shaner, Benjamin Varberg Olson, Emil Andrew Kadlec, Anna Tauke-Pedretti, Torben Ray Fortune
-
Patent number: 9166084Abstract: A photovoltaic (PV) device, comprising a PV interband cascade (IC) stage, wherein the IC PV stage comprises an absorption region with a band gap, the absorption region configured to absorb photons, an intraband transport region configured to act as a hole barrier, and an interband tunneling region configured to act as an electron barrier. An IC PV architecture for a photovoltaic device, the IC PV architecture comprising an absorption region, an intraband transport region coupled to the absorption region, and an interband tunneling region coupled to the intraband transport region and to the adjacent absorption region, wherein the absorption region, the intraband transport region, and the interband tunneling region are positioned such that electrons will flow from the absorption region to the intraband transport region to the interband tunneling region.Type: GrantFiled: February 9, 2011Date of Patent: October 20, 2015Assignee: Board of Regents University of OklahomaInventors: Rui Q. Yang, Zhaobing Tian, Tetsuya D. Mishima, Michael B. Santos, Matthew B. Johnson, John F. Klem
-
Patent number: 8750653Abstract: An exemplary embodiment of the present invention is a photodetector comprising a semiconductor body, a periodically patterned metal nanoantenna disposed on a surface of the semiconductor body, and at least one electrode separate from the nanoantenna. The semiconductor body comprises an active layer in sufficient proximity to the nanoantenna for plasmonic coupling thereto. The nanoantenna is dimensioned to absorb electromagnetic radiation in at least some wavelengths not more than 12 ?m that are effective for plasmonic coupling into the active layer. The electrode is part of an electrode arrangement for obtaining a photovoltage or photocurrent in operation under appropriate stimulation.Type: GrantFiled: April 26, 2013Date of Patent: June 10, 2014Assignee: Sandia CorporationInventors: David W. Peters, Paul Davids, Darin Leonhardt, Jin K. Kim, Joel R. Wendt, John F. Klem
-
Patent number: 8723161Abstract: A two-color detector includes a first absorber layer. The first absorber layer exhibits a first valence band energy characterized by a first valence band energy function. A barrier layer adjoins the first absorber layer at a first interface. The barrier layer exhibits a second valence band energy characterized by a second valence band energy function. The barrier layer also adjoins a second absorber layer at a second interface. The second absorber layer exhibits a third valence band energy characterized by a third valence band energy function. The first and second valence band energy functions are substantially functionally or physically continuous at the first interface and the second and third valence band energy functions are substantially functionally or physically continuous at the second interface.Type: GrantFiled: January 17, 2012Date of Patent: May 13, 2014Assignee: Sandia CorporationInventors: John F. Klem, Jin K. Kim
-
Patent number: 8450773Abstract: A photodetector is disclosed for the detection of infrared light with a long cutoff wavelength in the range of about 4.5-10 microns. The photodetector, which can be formed on a semiconductor substrate as an nBn device, has a light absorbing region which includes InAsSb light-absorbing layers and tensile-strained layers interspersed between the InAsSb light-absorbing layers. The tensile-strained layers can be formed from GaAs, InAs, InGaAs or a combination of these III-V compound semiconductor materials. A barrier layer in the photodetector can be formed from AlAsSb or AlGaAsSb; and a contact layer in the photodetector can be formed from InAs, GaSb or InAsSb. The photodetector is useful as an individual device, or to form a focal plane array.Type: GrantFiled: July 15, 2010Date of Patent: May 28, 2013Assignee: Sandia CorporationInventors: Jin K. Kim, Samuel D. Hawkins, John F. Klem, Michael J. Cich
-
Patent number: 8299497Abstract: A photodetector is disclosed for the detection of near-infrared light with a wavelength in the range of about 0.9-1.7 microns. The photodetector, which can be formed as either an nBp device or a pBn device on an InP substrate, includes an InGaAs light-absorbing layer, an InAlGaAs graded layer, an InAlAs or InP barrier layer, and an InGaAs contact layer. The photodetector can detect near-infrared light with or without the use of an applied reverse-bias voltage and is useful as an individual photodetector, or to form a focal plane array.Type: GrantFiled: June 30, 2010Date of Patent: October 30, 2012Assignee: Sandia CorporationInventors: John F. Klem, Jin K. Kim
-
Publication number: 20120199185Abstract: A photovoltaic (PV) device, comprising a PV interband cascade (IC) stage, wherein the IC PV stage comprises an absorption region with a band gap, the absorption region configured to absorb photons, an intraband transport region configured to act as a hole barrier, and an interband tunneling region configured to act as an electron barrier. An IC PV architecture for a photovoltaic device, the IC PV architecture comprising an absorption region, an intraband transport region coupled to the absorption region, and an interband tunneling region coupled to the intraband transport region and to the adjacent absorption region, wherein the absorption region, the intraband transport region, and the interband tunneling region are positioned such that electrons will flow from the absorption region to the intraband transport region to the interband tunneling region.Type: ApplicationFiled: February 9, 2011Publication date: August 9, 2012Applicant: BOARD OF REGENTS UNIVERSITY OF OKLAHOMAInventors: Rui Q. Yang, Zhaobing Tian, Tetsuya D. Mishima, Michael B. Santos, Matthew B. Johnson, John F. Klem
-
Patent number: 6931045Abstract: A new class of distributed Bragg reflectors has been developed. These distributed Bragg reflectors comprise interlayers positioned between sets of high-index and low-index quarter-wave plates. The presence of these interlayers is to reduce photon absorption resulting from spatially indirect photon-assisted electronic transitions between the high-index and low-index quarter wave plates. The distributed Bragg reflectors have applications for use in vertical-cavity surface-emitting lasers for use at 1.55 ?m and at other wavelengths of interest.Type: GrantFiled: June 26, 2003Date of Patent: August 16, 2005Assignee: Sandia CorporationInventor: John F. Klem
-
Patent number: 6931042Abstract: Selectively oxidized vertical cavity lasers emitting near 1300 nm using InGaAsN quantum wells are reported for the first time which operate continuous wave below, at and above room temperature. The lasers employ two n-type Al0.94Ga0.06As/GaAs distributed Bragg reflectors each with a selectively oxidized current aperture adjacent to the active region, and the top output mirror contains a tunnel junction to inject holes into the active region. Continuous wave single mode lasing is observed up to 55° C.Type: GrantFiled: May 31, 2001Date of Patent: August 16, 2005Assignee: Sandia CorporationInventors: Kent D. Choquette, John F. Klem
-
Publication number: 20010050934Abstract: Selectively oxidized vertical cavity lasers emitting near 1300 nm using InGaAsN quantum wells are reported for the first time which operate continuous wave below, at and above room temperature. The lasers employ two n-type Al0.94Ga0.06As/GaAs distributed Bragg reflectors each with a selectively oxidized current aperture adjacent to the active region, and the top output mirror contains a tunnel junction to inject holes into the active region. Continuous wave single mode lasing is observed up to 55° C.Type: ApplicationFiled: May 31, 2001Publication date: December 13, 2001Inventors: Kent D. Choquette, John F. Klem
-
Patent number: 6252287Abstract: An InGaAsN/GaAs semiconductor p-n heterojunction is disclosed for use in forming a 0.95-1.2 eV bandgap photodetector with application for use in high-efficiency multi-junction solar cells. The InGaAsN/GaAs p-n heterojunction is formed by epitaxially growing on a gallium arsenide (GaAs) or germanium (Ge) substrate an n-type indium gallium arsenide nitride (InGaAsN) layer having a semiconductor alloy composition InxGa1−xAs1−yNy with 0<x≦0.2 and 0<y≦0.04 and a p-type GaAs layer, with the InGaAsN and GaAs layers being lattice-matched to the substrate. The InGaAsN/GaAs p-n heterojunction can be epitaxially grown by either molecular beam epitaxy (MBE) or metalorganic chemical vapor deposition (MOCVD). The InGaAsN/GaAs p-n heterojunction provides a high open-circuit voltage of up to 0.62 volts and an internal quantum efficiency of >70%.Type: GrantFiled: May 19, 1999Date of Patent: June 26, 2001Assignee: Sandia CorporationInventors: Steven R. Kurtz, Andrew A. Allerman, John F. Klem, Eric D. Jones
-
Patent number: 5780867Abstract: A broadband light-emitting diode. The broadband light-emitting diode (LED) comprises a plurality of III-V compound semiconductor layers grown on a semiconductor substrate, with the semiconductor layers including a pair of cladding layers sandwiched about a strained-quantum-well active region having a plurality of different energy bandgaps for generating light in a wavelength range of about 1.3-2 .mu.m. In one embodiment of the present invention, the active region may comprise a first-grown quantum-well layer and a last-grown quantum-well layer that are oppositely strained; whereas in another embodiment of the invention, the active region is formed from a short-period superlattice structure (i.e. a pseudo alloy) comprising alternating thin layers of InGaAs and InGaAlAs.Type: GrantFiled: March 7, 1996Date of Patent: July 14, 1998Assignee: Sandia CorporationInventors: Ian J. Fritz, John F. Klem, Michael J. Hafich
-
Patent number: 5679963Abstract: The incorporation of a pseudomorphic GaAsSb layer in a runnel diode structure affords a new degree of freedom in designing runnel junctions for p-n junction device interconnects. Previously only doping levels could be varied to control the tunneling properties. This invention uses the valence band alignment band of the GaAsSb with respect to the surrounding materials to greatly relax the doping requirements for tunneling.Type: GrantFiled: December 5, 1995Date of Patent: October 21, 1997Assignee: Sandia CorporationInventors: John F. Klem, John C. Zolper