Institution
Finisar
Company•Sunnyvale, California, United States•
About: Finisar is a company organization based out in Sunnyvale, California, United States. It is known for research contribution in the topics: Signal & Laser. The organization has 900 authors who have published 1523 publications receiving 22634 citations.
Papers published on a yearly basis
Papers
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16 Jan 2004TL;DR: In this article, a mode indicator for use with a transceiver module includes a colored plastic button having an engagement feature configured for attachment to a corresponding transceivers module engagement feature.
Abstract: A mode indicator for use with a transceiver module includes a colored plastic button having an engagement feature configured for attachment to a corresponding transceiver module engagement feature.
17 citations
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23 Apr 2004TL;DR: In this paper, a PCB is provided that is suitable for use in applications where EMI control is of interest, and the PCB includes circuitry that communicates with an edge connector having edge traces located on its surface.
Abstract: A PCB is provided that is suitable for use in applications where EMI control is of interest. The PCB includes circuitry that communicates with an edge connector having edge traces located on its surface. Additionally, embedded traces are disposed within the dielectric material of the PCB, and each embedded trace electrically connects an edge trace with a corresponding median trace located on a surface of the PCB. An embedded ground layer substantially disposed within the dielectric material defines an area within the dielectric material through which the embedded traces pass. Finally, one or more vias are provided that extend through the dielectric material of the PCB and are filled with a conductive material. The vias are electrically connected to the embedded ground layer and configured to electrically communicate with an associated module. In this way, a structure is implemented that facilitates control of electromagnetic radiation emitted by the PCB circuitry.
17 citations
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19 Jul 2012TL;DR: In this paper, an optical transmission cross-connect for routing wavelength signals to a bank of directionless transceivers is described, which includes an array of four common port fibers for transmitting and receiving a multiplexed optical signal and sixteen add/drop fibers for receiving and transmitting demultiplexed signals including individual wavelength channels.
Abstract: Described herein is an optical transmission cross-connect for routing wavelength signals to a bank of directionless transceivers. One embodiment (1) includes an array of four common-port fibers (3) for transmitting and receiving a multiplexed optical signal and an array of sixteen add/drop fibers (5) for receiving and transmitting demultiplexed signals including individual wavelength channels. A dispersive grism (7) simultaneously spatially separates the wavelength channels from the optical signals in a dispersion dimension. A lens (45) focuses each said spatially separated wavelength channel in the dispersion dimension. A Liquid Crystal on Silicon (LCOS) device (11) separately manipulates each of the focused spatially separated wavelength channels to selectively steer the wavelength channels in a switching dimension. A micro-electromechanical mirror (MEMS) array (13) independently selectively directs the wavelength channels in the switching dimension such that the wavelength channels are coupled to predetermined ones of the add/drop fibers (5).
17 citations
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22 Jul 2002TL;DR: In this paper, the authors present a system and method for testing integrity of data transmitted across a network connection, which generally includes creating one or more test threads on one of the test clients attached to a server through the network connection.
Abstract: Embodiments of the present invention generally provide a system and method for testing integrity of data transmitted across a network connection. In one embodiment, the method generally includes creating one or more test threads on one or more test clients attached to a server through the network connection. The method further includes, for each test thread, generating a data load on the data connection by repetitively writing test data patterns to a data file on the server, reading data patterns from the data file, and comparing the data patterns read from the data file to the test data patterns written to the data file to detect data corruptions. The method may further include measuring data throughput between the one or more test clients and the server and generating debug information if a data corruption is detected by one of the test threads.
17 citations
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03 Aug 2005TL;DR: In this paper, an asymmetrical photonic crystal including cavities is optically coupled in the optical device such that one polarization of light is better reflected by the asymmetrical polarizing crystal than a competing polarization.
Abstract: An optical device including a polarization control photonic crystal. The optical device includes a vertical cavity surface emitting laser. The optical device further includes a lower mirror formed on a substrate. The optical device also includes an upper mirror. An active region is between the lower mirror and the upper mirror. Photons generated in the active region are reflected between the upper mirror and the lower mirror through the active region. An asymmetrical photonic crystal including cavities is optically coupled in the optical device such that one polarization of light is better reflected by the asymmetrical photonic crystal than a competing polarization of light.
17 citations
Authors
Showing all 900 results
Name | H-index | Papers | Citations |
---|---|---|---|
Yaron Silberberg | 87 | 462 | 28905 |
Ray T. Chen | 54 | 889 | 12078 |
Naresh R. Shanbhag | 49 | 325 | 9202 |
N.A. Olsson | 38 | 158 | 6360 |
Andrew C. Singer | 38 | 302 | 6721 |
Jae-Hyun Ryou | 35 | 260 | 5038 |
Joyce K. S. Poon | 33 | 156 | 4184 |
Yasuhiro Matsui | 31 | 143 | 2844 |
Ying Luo | 30 | 105 | 2992 |
Lewis B. Aronson | 29 | 74 | 2251 |
Thomas W. Mossberg | 29 | 131 | 2611 |
Daniel Mahgerefteh | 25 | 88 | 1830 |
Gil Cohen | 25 | 72 | 2564 |
Christoph M. Greiner | 24 | 100 | 1423 |
James A. Cox | 23 | 72 | 1718 |