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Ahmed B Bouzid

from Lincoln, NE
Age ~63
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Also known as:
Ahmed Nejiba Bouzid, Ahmed B Boubid, Ahmad Bouzid, Ahmed Ahmed, Ahmad Bouzld, Bouzid Ahmed, Bouzid Ahmad
Phone and address:
2415 Grainger Pkwy, Lincoln, NE 68512
(770) 623-3109
Related to:
Yousif Ahmed Mohamed, 54Wiaam M Mohamed, 34Nejiba G Bouzid, 59Alaa M Mohamed, 30Abdurrahman Bouzid, 36Tasneem BouzidWisal A Mohamed, 54Alaa Ahmed, 29Mohamed A Mohamed, 64
Connected to:
Bachir B Bouzid, 66Chaimae Bouzid, 31Djamal Bouzida, 61Fouad Bouzid, 56Zineb Bouzid, 28Aicha Bouzidi, 85Christopher J Bouzigard, 42Abdelwahab W Bouzihay, 63Andrew H Bouzinekis, 81James N Bouzios, 75

Ahmed Bouzid Phones & Addresses

  • 2415 Grainger Pkwy, Lincoln, NE 68512 (770) 623-3109
  • 4445 1St St, Lincoln, NE 68521 (402) 475-7204
  • 7101 32Nd St, Lincoln, NE 68516
  • Johns Creek, GA
  • 505 Gate Arbor Ct, Suwanee, GA 30024 (770) 623-3109
  • Madison, WI
  • 116 Sandstone Rd, Columbia, SC 29212 (803) 732-3766
  • Huntsville, AL
  • Chicago, IL
  • 505 Gate Arbor Ct, Suwanee, GA 30024 (770) 367-9011

Work

Position: Installation, Maintenance, and Repair Occupations

Education

Degree: Associate degree or higher

Emails

a***[email protected]

Resumes

Resumes

Ahmed Bouzid Photo 1

Fellow, Optical Engineering And Og Manager

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Location:
Lincoln, NE
Industry:
Biotechnology
Work:
Li-Cor Biosciences
Fellow, Optical Engineering and Og Manager
Skills:
Molecular Biology
Ahmed Bouzid Photo 2

Ahmed Bouzid

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Ahmed Bouzid
Vice President Marketing Marketing
ANGELCOM INCORPORATED
Business Services · Contact Center · Prepackaged Software · Prepackaged Software Services
14399 Penrose Pl #5, Chantilly, VA 20151
Mc Lean, VA 22102
2001 Junipero Serra Blvd, Daly City, CA 94014
8219 Leesburg Pike, Vienna, VA 22182
(703) 269-1070, (703) 637-6000, (888) 692-6435

Publications

Isbn (Books And Publications)

Framing the Struggle

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Author

Ahmed Bouzid

ISBN #

0595272150

Us Patents

Laser Scanning Fluorescence Microscopy With Compensation For Spatial Dispersion Of Fast Laser Pulses

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US Patent:
6449039, Sep 10, 2002
Filed:
Jul 28, 1999
Appl. No.:
09/362840
Inventors:
Ahmed Bouzid - Madison WI
Assignee:
Thermo Noran Inc. - Middleton WI
International Classification:
G01J 330
US Classification:
356318, 2504581
Abstract:
In laser scanning microscope systems using short pulsed laser sources incorporating an acousto-optical deflector, compensation is provided for spatial dispersion introduced by the deflector. Spatial dispersion of short pulses, such as those provided by a laser utilized in two photon fluorescence microscopy, occurs due to the higher and lower wavelength components in the pulsed laser beam as the beam is passed through an acousto-optical deflector or other similar diffractive element. A dispersive prism is mounted adjacent to the exit face of the acousto-optical deflector to spatially recombine the components of the pulse. A mirror may be mounted adjacent to the input face of the acousto-optical deflector and adjusted to adjust the angle of incidence of the beam on the input face of the deflector to match the Bragg condition at the center wavelength and so that both sides of the spectrum of the pulses are somewhat Bragg-mismatched and attenuated.

On-Chip Spectral Filtering Using Ccd Array For Imaging And Spectroscopy

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US Patent:
7130041, Oct 31, 2006
Filed:
Mar 2, 2005
Appl. No.:
10/906698
Inventors:
Ahmed Bouzid - Lincoln NE, US
David L. Franzen - Lincoln NE, US
Christopher Lesiak - Lincoln NE, US
Assignee:
Li-Cor, Inc. - Lincoln NE
International Classification:
G01J 3/44
US Classification:
356303
Abstract:
A spectral filtering apparatus and method is presented, which enables the functions of hyperspectral imaging to be performed with increased speed, simplicity, and performance that are required for commercial products. The apparatus includes a photosensitive array having a plurality of photosensitive elements such that different subsections of photosensitive elements of the array receive light of a different wavelength range of a characteristic spectrum of a target, and output electronics combines signals of at least two photosensitive elements in a subsection of the array and outputs the combined signal as a measure of the optical energy within a bandwidth of interest of the characteristic spectrum.

On-Chip Spectral Filtering Using Ccd Array For Imaging And Spectroscopy

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US Patent:
7280205, Oct 9, 2007
Filed:
Oct 30, 2006
Appl. No.:
11/554178
Inventors:
Ahmed Bouzid - Lincoln NE, US
David L. Franzen - Lincoln NE, US
Christopher Lesiak - Lincoln NE, US
Assignee:
Li-Cor, Inc. - Lincoln NE
International Classification:
G01J 3/28
US Classification:
356326
Abstract:
A spectral filtering apparatus and method is presented, which enables the functions of hyperspectral imaging to be performed with increased speed, simplicity, and performance that are required for commercial products. The apparatus includes a photosensitive array having a plurality of photosensitive elements such that different subsections of photosensitive elements of the array receive light of a different wavelength range of a characteristic spectrum of a target, and output electronics combines signals of at least two photosensitive elements in a subsection of the array and outputs the combined signal as a measure of the optical energy within a bandwidth of interest of the characteristic spectrum.

Fluorescence Filtering System And Method For Molecular Imaging

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US Patent:
7286232, Oct 23, 2007
Filed:
Feb 15, 2006
Appl. No.:
11/355848
Inventors:
Ahmed Bouzid - Lincoln NE, US
Assignee:
Li-Cor, Inc. - Lincoln NE
International Classification:
G01N 21/25
US Classification:
356417
Abstract:
An optical system is disclosed that can be used for fluorescence filtering for molecular imaging. In one preferred embodiment, a source subsystem is disclosed comprising a light source and a first set of filters designed to pass wavelengths of light in an absorption band of a fluorescent material. A detector subsystem is also disclosed comprising a light detector, imaging optics, a second set of filters designed to pass wavelengths of light in an emission band of the fluorescent material, and an aperture located at a front focal plane of the imaging optics. A telecentric space is created between the light detector and the imaging optics, such that axial rays from a plurality of field points emerge from the imaging optics parallel to each other and perpendicular to the second set of filters.

High Dynamic Range Scanning With Reduced Channel Cross-Talk

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US Patent:
8410454, Apr 2, 2013
Filed:
May 12, 2011
Appl. No.:
13/106776
Inventors:
Ahmed Bouzid - Lincoln NE, US
Christopher J. Lesiak - Lincoln NE, US
Assignee:
LI-COR, Inc. - Lincoln NE
International Classification:
G01N 21/64
US Classification:
2504581
Abstract:
A multi-channel scanning system adapted to implement a low channel cross-talk, extra-wide dynamic range scanning method by scanning the same location more than once, wherein at least one time, the power of the excitation light and detector gain are set to High for at least one of the channels and Low for at least one of the other channels and different settings are used in subsequent scans. The scans of the same channel taken with different High and Low settings are merged together to produce one wider dynamic range image.

Optical Background Suppression Systems And Methods For Fluorescence Imaging

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US Patent:
8436321, May 7, 2013
Filed:
May 21, 2010
Appl. No.:
12/785308
Inventors:
Sean B. Pieper - Lincoln NE, US
Ahmed Bouzid - Lincoln NE, US
Donald T. Lamb - Lincoln NE, US
Andrew G. Ragatz - Gretna NE, US
Assignee:
LI-COR, Inc. - Lincoln NE
International Classification:
G01N 21/64
US Classification:
2504581
Abstract:
A fluorescence imaging system having an enclosure having an optical excitation and detection system and features designed to suppress or reduce background fluorescence. In certain aspects, all or a portion of the interior walls has a material finish and texture that provides a surface that absorbs at least a portion of any impinging excitation light and which has low auto-fluorescing properties. In certain aspects, a baffle structure is provided on the interior of the structure and is configured to mask portions of the interior and reduce the opening through which light impinges on the detector. In certain aspects, a platform having an optically transparent window is located in the interior of the housing structure for holding a sample for excitation by excitation light from an excitation source, wherein a light-trap structure is positioned or located on an opposite side of the platform relative to the excitation source and configured to receive and contain a substantial portion of any scattered or transmitted excitation light.

Chemiluminescence Compact Imaging Scanner

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US Patent:
8486644, Jul 16, 2013
Filed:
Mar 28, 2012
Appl. No.:
13/432410
Inventors:
Ahmed Bouzid - Lincoln NE, US
Chris Lesiak - Lincoln NE, US
Daniel W. Konz - Lincoln NE, US
David L. Franzen - Lincoln NE, US
William Biggs - Lincoln NE, US
Jon P. Anderson - Lincoln NE, US
Assignee:
Li-Cor, Inc. - Lincoln NE
International Classification:
G01N 33/53
US Classification:
435 71
Abstract:
Systems, devices, and methods for accurately imaging chemiluminescence and other luminescence are disclosed. A compact, flat-bed scanner having a light-tight enclosure, one or more detector bars of linear charge-coupled device (CCD) or complementary metal oxide semiconductor (CMOS) imaging chips, and high working numerical aperture (NA) optics scans closely over a sample in one direction and then the opposite direction. Averages or other combinations of intensity readings for each pixel location (x, y) between the two or more passes are averaged together in order to compensate for luminescence that varies over time. On-chip pixel binning and multiple clock frequencies can be used to maximize the signal to noise ratio in a CCD-based scanner.

Process For Forming A Light Beam Path In A Dielectric Mirror

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US Patent:
8508874, Aug 13, 2013
Filed:
Jul 1, 2011
Appl. No.:
13/175426
Inventors:
Tyler Anderson - Lincoln NE, US
Ahmed Bouzid - Lincoln NE, US
Assignee:
LI-COR, Inc. - Lincoln NE
International Classification:
G02B 5/08
US Classification:
359884, 359581, 372 93
Abstract:
An optical mirror element includes an optically transmissive element having a first surface and a second surface, and a reflective coating layer on the first surface that defines a mirror surface. A first portion of the first surface does not include the reflective coating layer such that the first portion defines an optically transmissive window in the mirror surface. Q method of forming an optical mirror element having a window portion includes providing an optical element, masking a first portion of a first surface of the optical element, and thereafter applying a reflective coating to the first surface so as to define a reflective surface, wherein the masked portion defines a transmissive region in the reflective surface. The exposed portion of the first surface may be coated with an anti-reflective coating, either before or after the reflective coating is applied.

Wikipedia

Palestine Media Watch

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According to the group's founder, Ahmed Bouzid, "There's a paradigm we're trying to change: that Israelis are defending themselves and the Palestinians are attacking,

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Ahmed B Bouzid from Lincoln, NE, age ~63 Get Report