Laser & Plasma Technologies Llc

CAGE Code: 4QH87

NCAGE Code: 4QH87

Status: Active

Type: Commercial Supplier

Dun & Bradstreet (DUNS): 796535776

Summary

Laser & Plasma Technologies Llc is an Active Commercial Supplier with the Cage Code 4QH87 and is tracked by Dun & Bradstreet under DUNS Number 796535776..

Address

2123 Ivy Rd Ste 201
Charlottesville VA 22903-1765
United States

Points of Contact

No Points of Contact...

Related Information

DUNS Report

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CAGE Code FAQ Frequently Asked Questions (FAQ) for CAGE 4QH87

What is CAGE Code 4QH87?
4QH87 is the unique identifier used by NATO Organizations to reference the physical entity known as Laser & Plasma Technologies Llc located at 2123 Ivy Rd Ste 201, Charlottesville VA 22903-1765, United States.
Who is CAGE Code 4QH87?
4QH87 refers to Laser & Plasma Technologies Llc located at 2123 Ivy Rd Ste 201, Charlottesville VA 22903-1765, United States.
Where is CAGE Code 4QH87 Located?
CAGE Code 4QH87 is located in Charlottesville, VA, USA.

Contracting History for CAGE 4QH87 Contracting History for CAGE 4QH87 Most Recent 25 Records

FA822223CB002
Topic No. Af231-D016, Sbir Phase Ii Proposal F2d-8361 - Hand-Held Laser Process And Prototype System For Nitrile Phenolic Film Adhesive Removal: Preserving Aerospace Aluminum Alloy Properties
17 Jul 2023
Fa8222 Afsc Pzie
Department Of Defense (Dod)
$1,796,396.61
FA822223CB002
Topic No. Af231-D016, Sbir Phase Ii Proposal F2d-8361 - Hand-Held Laser Process And Prototype System For Nitrile Phenolic Film Adhesive Removal: Preserving Aerospace Aluminum Alloy Properties
29 Jun 2023
Fa8222 Afsc Pzie
Department Of Defense (Dod)
$1,796,396.61
FA864921P0582
Solution Focuses On Laboratory Engineering Research And Development Of The Companys Automated Corrosion Detection And Remediation System For Aging United States Air Force Transport Fleets
18 Mar 2021
Fa8649 Usaf Sbir Sttr Contracting
Department Of Defense (Dod)
$49,510.93
FA864921P0582
Solution Focuses On Laboratory Engineering Research And Development Of The Companys Automated Corrosion Detection And Remediation System For Aging United States Air Force Transport Fleets
18 Mar 2021
Fa8649 Usaf Sbir Sttr Contracting
Department Of Defense (Dod)
$49,510.93
N6833521C0237
Opt Clin 0003&0004 Exercised And Fully Funded.
1 Jun 2022
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$1,688,510.00
N6833521C0237
Extend The Pop End Date On Clins 0003/0004 From 18 November 2022 To 17 November 2023.
9 Jan 2023
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$1,688,510.00
N6833521C0237
Change The Tpoc To Corey Countryman.
25 Feb 2023
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$1,688,510.00
N6833521C0237
Extend The Pop End Date On Clin 0001 And Related Data Clin 0002 Until 18 November 2022.
20 Jul 2022
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$1,688,510.00
N6833521C0237
Research And Development
8 Feb 2021
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$500,000.00
N6833521C0237
Incrementally Fund Clin 00001 Add Dfars Clause 252.204-7020
8 Sep 2021
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$990,825.00
80NSSC18C0225
Eo14042 Development Of An Optic Fiber Based Hybrid Spectroscope
19 Jan 2022
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis&Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials&Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
10 Sep 2018
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Eo14042 Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
12 Oct 2021
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis&Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials&Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
30 Jan 2019
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis&Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials&Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
3 Jun 2020
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
3 Mar 2021
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
1 Sep 2023
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$849,298.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
11 Aug 2021
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
FA865022P2324
Advanced Diagnostic Method Development And Evaluation
9 Feb 2023
Fa8650 Usaf Afmc Afrl Pzl Afrl/Pzl
Department Of Defense (Dod)
$149,932.00
80NSSC18C0225
Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
2 Mar 2023
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$849,298.00
NNX17CL72P
Igf::Ot::Igf Laser&Plasma Technologies (Lpt), Teamed With The National Science Foundation (Nsf) Center For Lasers At The University Of Virginia (Uva), Proposes An Advanced Optical Fiber Coupled Hybrid Spectroscope For In Situ Characterization Of Organic Compounds. The Proposed Approach Provides Information On Organic Compounds By Analyzing Spectra Obtained From Laser Induced Breakdown Spectroscopy (Libs) And Raman Spectroscopy (Raman) With A Novel Approach Of Using A Single Pulsed Laser. The Hybrid Spectroscope Yields Elemental Compositions From Libs And Molecular Information From Raman Strongly Complement Each Other. The Use Of Optical Fibers Offers Advantages Of Small, Light, And Flexibility For Various Nasa Planetary Missions. An Innovative Laser Beam Scanning Head Provides An Ultra-Compact Solution To Achieve 1D Or 2D Raster Scanning From A Robotic Arm. Lpt Has Extensive Expertise In Material Detection And Monitoring By Optical Sensing Technologies. The Expertise Combined With Lpt's Core Competencies In Advanced Laser Micromachining And Optical Sensing, Provides A Solid Foundation To Achieve The Goal Of This Project. A Technology Readiness Level (Trl) Of 4 Is Anticipated By The End Of The Phase I Project.
7 Jun 2018
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$117,629.00
FA865022P2324
Af221-019, F221-0019-0068, Novel Techniques For Gas Turbine Engine Bearing Inspection
24 Aug 2022
Fa8650 Usaf Afmc Afrl Pzl Afrl/Pzl
Department Of Defense (Dod)
$149,932.00
70Z03818PE0000023
Rental And Training Of Lpt-S2 Sub-Coating Inspection Camera
15 Jun 2018
Aviation Logistics Center (Alc)(00038)
Department Of Homeland Security (Dhs)
$7,300.00
80NSSC18C0225
Eo14042 Nasa Has Supported Several Instrument Development Efforts For Exploration Of Mars Other Extraterrestrial Bodies.This Exemplifies The Importance Of New Instrument Development Efforts For Successful Advancement Of Nasa Missions.With This In Mind Laser&Plasma Technologies Successfully Demonstrated Feasibility Of Integrating Libs&Raman Instruments Into Optical Based Hybrid Spectroscope That Meets Nasas Desire For Targeted Elemental And Compound Determination.Through Phase Ii Efforts This Unique Hybrid Instrument Will Have Lightweight Compact Design Amenable For Integration Into A Mars Rover Type Platform That The Head Of The Instrument Can Be Positioned By The Rovers Robotic Arm To The Target Of Interest While Data Is Sent To The Main Unit Within The Body Of The Rover For Analysis & Storage.For Future Manned Missions,The Hybrid Instrument May Enable Recognition Of Important Elemental Minerals For Mining And Compounds That May Be Used For Locally Sourced Agriculture. Another Application Is Collection Of Fluorescent Data, Allowing Nasa To Explore Biological Compounds That May Be Present In Martian Soils In Minute Quantities.Major Advantages Of A Dual Instrument Include More Rapid And Accurate Data Collection From Precise Targets,Minimal Damage To Substrate Materials & Avoidance Of Switching Between Different Systems.In Addition To Benefits In Nasa Missions,This Novel Instrument May Improve Target Identification, Compositional Measurement In Market Currently Utilizing Standalone Spectroscopy Such Metal Recycling,Chemical Processing,Archeology, Mining Operations,Historical Art Pharmaceuticals Medical Research Others.This System Also Has Applications For The Dod Where The High Laser Intensity Libs Aspect Of The Instrument Could Inspect And Then Drill Through Coatings To Analyze Subsurface Targets, Providing Valuable Infrastructure Data On Coatings And Subsurface Corrosion As Well As Other Metallurgical Data
19 Sep 2022
Nasa Shared Services Center
National Aeronautics And Space Administration (Nasa)
$749,917.00
N6833520C0775
Sbir Ph 1
8 Jul 2020
Navair Warfare Ctr Aircraft Div
Department Of Defense (Dod)
$149,243.00