Patents by Inventor Ghulam Hasnain
Ghulam Hasnain 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: 20090146165Abstract: A light emitting device, a wafer for making the same, and method for fabricating the same are disclosed. The device and wafer include a first layer of a first conductivity type, an active layer, and a layer of a second conductivity type. The active layer overlies the first layer, the active layer generating light. The second layer overlies the active layer, the second layer having a first surface in contact adjacent to the active layer and a second surface having a surface that includes features that scatter light striking the second surface. A layer of transparent electrically conducing material is adjacent to the second surface and covered by a first layer of a dielectric material that is transparent to the light generated by the active layer. A mirror layer that has a reflectivity greater than 90 percent is deposited on the first layer of dielectric material.Type: ApplicationFiled: December 6, 2007Publication date: June 11, 2009Inventors: Ghulam Hasnain, Steven D. Lester
-
Patent number: 7345324Abstract: A light emitting device in accordance with an embodiment of the present invention includes a first semiconductor layer of a first conductivity type having a first surface, and an active region formed overlying the first semiconductor layer. The active region includes a second semiconductor layer which is either a quantum well layer or a barrier layer. The second semiconductor layer is formed from a semiconductor alloy having a composition graded in a direction substantially perpendicular to the first surface of the first semiconductor layer. The light emitting device also includes a third semiconductor layer of a second conductivity type formed overlying the active region.Type: GrantFiled: July 7, 2005Date of Patent: March 18, 2008Assignee: Philips Lumileds Lighting Company LLCInventors: David P. Bour, Nathan F. Gardner, Werner K. Goetz, Stephen A. Stockman, Tetsuya Takeuchi, Ghulam Hasnain, Christopher P. Kocot, Mark R. Hueschen
-
Publication number: 20050263780Abstract: A light emitting device in accordance with an embodiment of the present invention includes a first semiconductor layer of a first conductivity type having a first surface, and an active region formed overlying the first semiconductor layer. The active region includes a second semiconductor layer which is either a quantum well layer or a barrier layer. The second semiconductor layer is formed from a semiconductor alloy having a composition graded in a direction substantially perpendicular to the first surface of the first semiconductor layer. The light emitting device also includes a third semiconductor layer of a second conductivity type formed overlying the active region.Type: ApplicationFiled: July 7, 2005Publication date: December 1, 2005Inventors: David Bour, Nathan Gardner, Werner Goetz, Stephen Stockman, Tetsuya Takeuchi, Ghulam Hasnain, Christopher Kocot, Mark Hueschen
-
Patent number: 6955933Abstract: A light emitting device in accordance with an embodiment of the present invention includes a first semiconductor layer of a first conductivity type having a first surface, and an active region formed overlying the first semiconductor layer. The active region includes a second semiconductor layer which is either a quantum well layer or a barrier layer. The second semiconductor layer is formed from a semiconductor alloy having a composition graded in a direction substantially perpendicular to the first surface of the first semiconductor layer. The light emitting device also includes a third semiconductor layer of a second conductivity type formed overlying the active region.Type: GrantFiled: July 24, 2001Date of Patent: October 18, 2005Assignee: Lumileds Lighting U.S., LLCInventors: David P. Bour, Nathan F. Gardner, Werner K. Goetz, Stephen A. Stockman, Tetsuya Takeuchi, Ghulam Hasnain, Christopher P. Kocot, Mark R. Hueschen
-
Patent number: 6853663Abstract: An optical semiconductor device having an active layer for generating light via the recombination of holes and electrons therein. The active layer is part of a plurality of semiconductor layers including an n-p junction between an n-type layer and a p-type layer. The active layer has a polarization field therein having a field direction that depends on the orientation of the active layer when the active layer is grown. In the present invention, the polarization field in the active layer has an orientation such that the polarization field is directed from the n-layer to the p-layer.Type: GrantFiled: December 21, 2001Date of Patent: February 8, 2005Assignee: Agilent Technologies, Inc.Inventors: Ghulam Hasnain, Richard P. Schneider, Scott W. Corzine, Mark Hueschen, Tetsuya Takeuchi, Danny E. Mars
-
Patent number: 6680963Abstract: A current confinement element that can be used in constructing light-emitting devices. The current confinement element includes a top layer and an aperture-defining layer. The top layer includes a top semiconducting material of a first conductivity type that is transparent to light. The aperture-defining layer includes an aperture region and a confinement region. The aperture region includes an aperture semiconducting material of the first conductivity type that is transparent to light. The confinement region surrounds the aperture region and includes a material that has been doped to provide a high resistance to the flow of current. In one embodiment of the invention, the confinement region includes a semiconducting material of a second conductivity type.Type: GrantFiled: July 24, 2001Date of Patent: January 20, 2004Assignee: Lux Net CorporationInventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Patent number: 6553053Abstract: A laser diode that includes a light guiding structure that improves the light-output-versus-current curve by altering the multiple spatial modes of the laser diode. A laser diode according to the present invention includes a bottom mirror constructed on an electrically conducting material, an active region constructed from a first conductive spacer situated above the bottom mirror, a light emitting layer, and a second conductive spacer situated above the light emitting layer. The laser diode also includes a top mirror constructed from a plurality of mirror layers of a semiconducting material of a first conductivity type that are located above the second conductive spacer. The adjacent mirror layers have different indexes of refraction. One or more of the top mirror layers is altered to provide an aperture defining layer that includes an aperture region that alters the spatial modes of the device.Type: GrantFiled: July 25, 2001Date of Patent: April 22, 2003Assignee: LuxNet CorporationInventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Patent number: 6534331Abstract: A current confinement element that can be used in constructing light-emitting devices. The current confinement element includes a top layer and an aperture-defining layer. The top layer includes a top semiconducting material of a first conductivity type that is transparent to light. The aperture-defining layer includes an aperture region and a confinement region. The aperture region includes an aperture semiconducting material of the first conductivity type that is transparent to light. The confinement region surrounds the aperture region and includes a material that has been doped to provide a high resistance to the flow of current. The aperture-defining layer is constructed by implanting or diffusing elements into one or more of the mirror layers prior to depositing the remaining mirror layers on top of the aperture-defining layer.Type: GrantFiled: July 24, 2001Date of Patent: March 18, 2003Assignee: LuxNet CorporationInventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Patent number: 6526082Abstract: A light-generating device such as a laser or LED. A light-generating device according to the present invention includes a first n-electrode layer in contact with a first n-contact layer, the first n-contact layer including an n-doped semiconductor. Light is generated by the recombination of holes and electrons in an n-p active layer. The n-p active layer includes a first p-doped layer in contact with a first n-doped layer, the first n-doped layer being connected electrically with the first n-contact layer. A p-n reverse-biased tunnel diode constructed from a second p-doped layer in contact with a second n-doped layer is connected electrically such that the second p-doped layer is connected electrically with the first p-layer. A second n-contact layer constructed from an n-doped semiconductor material is connected electrically to the second n-doped layer. A second n-electrode layer is placed in contact with the second n-contact layer.Type: GrantFiled: June 2, 2000Date of Patent: February 25, 2003Assignee: Lumileds Lighting U.S., LLCInventors: Scott W. Corzine, Richard P. Schneider, Jr., Ghulam Hasnain
-
Publication number: 20030021326Abstract: A current confinement element that can be used in constructing light-emitting devices. The current confinement element includes a top layer and an aperture-defining layer. The top layer includes a top semiconducting material of a first conductivity type that is transparent to light. The aperture-defining layer includes an aperture region and a confinement region. The aperture region includes an aperture semiconducting material of the first conductivity type that is transparent to light. The confinement region surrounds the aperture region and includes a material that has been doped to provide a high resistance to the flow of current. In one embodiment of the invention, the confinement region includes a semiconducting material of a second conductivity type.Type: ApplicationFiled: July 24, 2001Publication date: January 30, 2003Inventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Publication number: 20030021317Abstract: A laser diode that includes a light guiding structure that improves the light-output-versus-current curve by altering the multiple spatial modes of the laser diode. A laser diode according to the present invention includes a bottom mirror constructed on an electrically conducting material, an active region constructed from a first conductive spacer situated above the bottom mirror, a light emitting layer, and a second conductive spacer situated above the light emitting layer. The laser diode also includes a top mirror constructed from a plurality of mirror layers of a semiconducting material of a first conductivity type that are located above the second conductive spacer. The adjacent mirror layers have different indexes of refraction. One or more of the top mirror layers is altered to provide an aperture defining layer that includes an aperture region that alters the spatial modes of the device.Type: ApplicationFiled: July 25, 2001Publication date: January 30, 2003Inventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Publication number: 20030022406Abstract: A current confinement element that can be used in constructing light-emitting devices. The current confinement element includes a top layer and an aperture-defining layer. The top layer includes a top semiconducting material of a first conductivity type that is transparent to light. The aperture-defining layer includes an aperture region and a confinement region. The aperture region includes an aperture semiconducting material of the first conductivity type that is transparent to light. The confinement region surrounds the aperture region and includes a material that has been doped to provide a high resistance to the flow of current. The aperture-defining layer is constructed by implanting or diffusing elements into one or more of the mirror layers prior to depositing the remaining mirror layers on top of the aperture-defining layer.Type: ApplicationFiled: July 24, 2001Publication date: January 30, 2003Inventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Publication number: 20030020085Abstract: A light emitting device in accordance with an embodiment of the present invention includes a first semiconductor layer of a first conductivity type having a first surface, and an active region formed overlying the first semiconductor layer. The active region includes a second semiconductor layer which is either a quantum well layer or a barrier layer. The second semiconductor layer is formed from a semiconductor alloy having a composition graded in a direction substantially perpendicular to the first surface of the first semiconductor layer. The light emitting device also includes a third semiconductor layer of a second conductivity type formed overlying the active region.Type: ApplicationFiled: July 24, 2001Publication date: January 30, 2003Applicant: LumiLeds Lighting, U.S., LLCInventors: David P. Bour, Nathan F. Gardner, Werner K. Goetz, Stephen A. Stockman, Tetsuya Takeuchi, Ghulam Hasnain, Christopher P. Kocot, Mark R. Hueschen
-
Publication number: 20030021318Abstract: A current confinement element that can be used in constructing light-emitting devices. The current confinement element includes a top layer and an aperture-defining layer. The top layer includes a top semiconducting material of a first conductivity type that is transparent to light. The aperture-defining layer includes an aperture region and a confinement region. The aperture region includes an aperture semiconducting material of the first conductivity type that is transparent to light. The confinement region surrounds the aperture region and includes a material that has been doped to provide a high resistance to the flow of current. In one embodiment of the invention, the confinement region includes a material that has been doped with impurities that increase the resistance of the material to a value greater than 5×106 ohm-cm.Type: ApplicationFiled: July 24, 2001Publication date: January 30, 2003Inventors: Andrew Shuh-Huei Liao, Ghulam Hasnain, Chihping Kuo, Hao-Chung Kuo, Zhiqing Shi, Minh Ngoc Trieu
-
Publication number: 20020110172Abstract: An optical semiconductor device having an active layer for generating light via the recombination of holes and electrons therein. The active layer is part of a plurality of semiconductor layers including an n-p junction between an n-type layer and a p-type layer. The active layer has a polarization field therein having a field direction that depends on the orientation of the active layer when the active layer is grown. In the present invention, the polarization field in the active layer has an orientation such that the polarization field is directed from the n-layer to the p-layer.Type: ApplicationFiled: December 21, 2001Publication date: August 15, 2002Inventors: Ghulam Hasnain, Richard P. Schneider, Scott W. Corzine, Mark Hueschen, Tetsuya Takeuchi, Danny E. Mars
-
N-drive, p-common light-emitting devices fabricated on an n-type substrate and method of making same
Patent number: 5892787Abstract: A substantially n-type substrate structure having a p-type surface for use in semiconductor devices as a substitute for a p-type semiconductor substrate. The substrate structure comprises a substrate region and a buffer region. The substrate region is a region of n-type compound semiconductor, and includes a degeneratively n-doped portion adjacent its first surface. The buffer region is a region of compound semiconductor doped with a p-type dopant. The buffer region is located on the first surface of the substrate region and includes a surface remote from the substrate region that provides the p-type surface of the substrate structure. The buffer region also includes a degeneratively p-doped portion adjacent the degeneratively n-doped portion of the substrate region. The substrate structure includes a tunnel junction between the degeneratively n-doped portion of the substrate region and the degeneratively p-doped portion of the buffer region.Type: GrantFiled: April 22, 1996Date of Patent: April 6, 1999Assignee: Hewlett-Packard CompanyInventors: Michael R. T. Tan, Albert T. Yuen, Shih-Yuan Wang, Ghulam Hasnain, Yu-Min Houng -
Patent number: 5866936Abstract: A mesa-structure avalanche photodiode in which a buffer region in the surface of the mesa structure effectively eliminates the sharply-angled, heavily doped part of the cap layer that existed adjacent the lightly-doped n-type multiplication layer and p-type guard ring before the buffer region was formed. This reduces electric field strength at the ends of the planar epitaxial P-N junction and prevents edge breakdown in this junction. The lateral extent of the guard ring is defined by a window formed in a masking layer prior to regrowth of the guard ring. This guard ring structure eliminates the need to perform additional processing steps to define the lateral extent of the guard ring and passivate the periphery of the guard ring.Type: GrantFiled: April 1, 1997Date of Patent: February 2, 1999Assignee: Hewlett-Packard CompanyInventors: Ghulam Hasnain, James N. Hollenhorst, Chung-Yi Su
-
Patent number: 5843804Abstract: A SAM avalanche photodiode formed with an epitaxially regrown guard ring and a planar P-N junction defined between a cap layer and a multiplication layer. The multiplication layer is part of a multi-layer semiconductor platform having a conductivity opposite to the conductivity type of the cap layer, including a light absorption layer, a substrate and an intermediate layer. A second embodiment of the present invention is disclosed including a SAM avalanche photodiode having a guard ring with a variable distribution of impurity dopant concentrations. In addition, a third embodiment of the present invention is disclosed in which a narrow band gap layer completely covers the cap layer and a non-alloy metal contact is formed to completely cover the narrow band gap layer, forming a mirror junction. In this embodiment, incident light is shined through the substrate and reflected from the mirror junction, enhancing the absorption efficiency.Type: GrantFiled: March 6, 1997Date of Patent: December 1, 1998Assignee: Hewlett-Packard CompanyInventors: Chung-Yi Su, Ghulam Hasnain, James N. Hollenhorst
-
Patent number: 5610416Abstract: A SAM avalanche photodiode formed with an epitaxially regrown guard ring and a planar P-N junction defined between a cap layer and a multiplication layer. The multiplication layer is part of a multi-layer semiconductor platform having a conductivity opposite to the conductivity type of the cap layer, including a light absorption layer, a substrate and an intermediate layer. A second embodiment of the present invention is disclosed including a SAM avalanche photodiode having a guard ring with a variable distribution of impurity dopant concentrations. In addition, a third embodiment of the present invention is disclosed in which a narrow band gap layer completely covers the cap layer and a non-alloy metal contact is formed to completely cover the narrow band gap layer, forming a mirror junction. In this embodiment, incident light is shined through the substrate and reflected from the mirror junction, enhancing the absorption efficiency.Type: GrantFiled: February 16, 1995Date of Patent: March 11, 1997Assignee: Hewlett-Packard CompanyInventors: Chung-Yi Su, Ghulam Hasnain, James N. Hollenhorst
-
Patent number: 5136603Abstract: The present invention is a semiconductor laser having an integral photodiode and/or modulator. The integrated structure comprises a quantum well active region sandwiched between a pair of distributed Bragg reflector stacks for emitting laser light transverse to the planes of growth. An intrinsic layer and a doped semiconductor layer are disposed on one of the reflector stacks for forming, in combination with the outer layer of the stack, a photodiode in the path of emitted light. The diode can be used either to monitor the laser power or to modulate the laser output. The device is particularly suited for fabrication and testing in large arrays and, in addition, has the advantages of a circular, low divergence optical output, inherently single mode operation, and a high two-dimensional packing density.Type: GrantFiled: April 29, 1991Date of Patent: August 4, 1992Assignee: AT&T Bell LaboratoriesInventors: Ghulam Hasnain, Kuochou Tai