Hagopian John G
Div Lambda Consulting Llc
CAGE Code: 7AUN3
NCAGE Code: 7AUN3
Status: Active
Type: Commercial Supplier
Summary
Hagopian John G, Div Lambda Consulting Llc is an Active Commercial Supplier with the Cage Code 7AUN3.
Address
4437 Windsor Farm Rd
Harwood MD 20776-2200
United States
Points of Contact
No Points of Contact...
Related Information
No Related Information...
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Frequently Asked Questions (FAQ) for CAGE 7AUN3
- What is CAGE Code 7AUN3?
- 7AUN3 is the unique identifier used by NATO Organizations to reference the physical entity known as Hagopian John G Div Lambda Consulting Llc located at 4437 Windsor Farm Rd, Harwood MD 20776-2200, United States.
- Who is CAGE Code 7AUN3?
- 7AUN3 refers to Hagopian John G Div Lambda Consulting Llc located at 4437 Windsor Farm Rd, Harwood MD 20776-2200, United States.
- Where is CAGE Code 7AUN3 Located?
- CAGE Code 7AUN3 is located in Harwood, MD, USA.
Contracting History for CAGE 7AUN3 Most Recent 25 Records
- 80NSSC24CA014
- Optical Systems Engineering Support For The Roman Space Telescope Project
- 29 Nov 2023
- Optical Systems Engineering Support For The Roman Space Telescope Project
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $368,482.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC23CA208
- P3 - Mswc Masks
- 11 Sep 2023
- P3 - Mswc Masks
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $16,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0010
- Multi-Star Wavefront Control Mask Description
- 17 Mar 2021
- Multi-Star Wavefront Control Mask Description
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $10,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0171
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- 8 Oct 2021
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,126,767.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0010
- Multi-Star Wavefront Control Mask Description
- 29 Oct 2020
- Multi-Star Wavefront Control Mask Description
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $10,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0171
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- 9 Nov 2022
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,126,767.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC23CA021
- E014042 Sbir Phase Iii Reflective Carbon Nanotube Apodizers For Gsfc Test Bed
- 1 Dec 2022
- E014042 Sbir Phase Iii Reflective Carbon Nanotube Apodizers For Gsfc Test Bed
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $24,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC23CA021
- E014042 Sbir Phase Iii Reflective Carbon Nanotube Apodizers For Gsfc Test Bed
- 31 Jul 2023
- E014042 Sbir Phase Iii Reflective Carbon Nanotube Apodizers For Gsfc Test Bed
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $74,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC20C0688
- Covid-19 Carbon Nanotube Forest Deposition On Conductive Traces For E-Nose
- 18 Sep 2020
- Covid-19 Carbon Nanotube Forest Deposition On Conductive Traces For E-Nose
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $40,000.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0171
- In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation.
- 21 Sep 2021
- In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,126,767.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0370
- Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- 25 Sep 2021
- Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,880.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0171
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- 9 Dec 2021
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,126,767.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0370
- Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- 13 May 2021
- Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,880.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0370
- Eo14042 Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- 18 Jan 2022
- Eo14042 Single Photon Generation By Functionalized Quantum Dots On Carbon Nanotube Arrays For Single Photon Detector Calibration And Quantum Entanglement Applications
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,880.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0171
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- 1 Jun 2022
- Eo14042 In Phase I We Demonstrated Each Aspect Required For Design And Fabrication Of Lyot Stops And Apodization Masks For Use In A Coronagraphic Instrument And Delivered Working Components To Collaborators At Nasa And The Space Telescope Science Institute For Evaluation. The Technical Achievements Included: 1) First High Quality Mirror With Carbon Nanotubes 2) First Nanotubes Grown On Metallic Coatings 3) Dark Patterned Carbon Nanotubes With Micron-Scaled Features. During Phase Ii We Will Work With The Nasa And Stsci Collaborators To Determine How To Improve These Components And Deliver Second Generation Components To Extend The Performance Of The Stsci Test Bed In Support Of Implementation On Future Nasa Missions Such As Habex Or Uvoirs. In Addition We Will Work With Nasa Collaborators To Design And Fabricate Carbon Nanotube Coated Lyot Stops For The Visible Nulling Coronagraph (Vnc) Test Bed, Also Of Key Importance To The Decadal Missions Referenced Above. Lastly, We Plan To Collaborate With The Lisa Telescope Team At Nasa Gsfc To Design And Fabricate A Carbon Nanotube Apodization Mask On A Powered Secondary Mirror That Could Be Used In Single Crystal Silicon Telescope As A Pathfinder For Lisa. One Of The Technical Goals Of Phase Ii Are To Pattern More Complex Lyot Stop Geometries While Maintaining Geometrical Accuracy Through The Nanotube Growth Process. Further Optimization Of The Apodization Masks For Coronagrahic Use Include: 1) Increasing The Metallic Coating Reflectance To Near Ideal 2) Optimization Of The Nanotube Darkness On The Metallic Coatings 3) Greyscale Patterning Of Carbon Nanotubes And Medium Reflectance Coatings On The Mirrors To Achieve Enhanced Diffraction Suppression. For The Lisa Telescope Diffraction Spoiler Application We Will Demonstrate Patterning And Growth Of Carbon Nanotubes At The Micron Scale Which When Combined With Metallic Nanostructures Can Provide Enhanced Field Suppression Another Enabling Technology To Nasa Missions.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,126,767.00
- National Aeronautics And Space Administration (Nasa)