Technology Days 2013 |
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Tuesday October 1, 2013 |
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Presenter | Title | Company |
Government Technology Needs and NASA SBIR Pre-Solicitation Workshop (OPEN) | |||
00a | Stahl | Welcome | NASA |
00b | Polidan | Logistics | NGC |
00c | Watson | Welcome | NGC |
00d | Hagenbuechle | Welcome | OSSC |
1 | Helble | NASA’s Space Technology Mission Directorate Technology Needs | NASA |
2 | Lawson | NASA’s Exoplanet Program Technology Needs | JPL |
3 | Shaklan | Starlight Suppression Technologies for Exoplanet Imaging | JPL |
4 | Grant | NASA SBIR Program | NASA |
5 | Lewis | Tailoring SBIR Technology Infusion to its Environment | JPL |
6 | Shaklan | NASA SBIR Topic S2 “Advanced Telescope Systems” | JPL |
7 | Stahl | NASA SBIR S2.03 “Advanced Optical Components” and E3.02 “Advanced Technology Telescope for Balloon Mission” | NASA |
SBIR Select Subtopic (OPEN) | |||
8 | Goodman | SiC Telescope for BENI Mission | Trex |
9 | Catanzaro | Systems Engineering Approach to Requirements Definition | CFE |
10 | Loomis | Low Cost CMB Telescope Development Status | Vanguard |
X-Ray Mirror Technology (OPEN) | |||
11 | Reid | Development Status of Adjustable Grazing Incidence X-Ray Optics | CFA |
12 | Michel | Be/BeO Metal Matrix Composite for Lightweight CTE Matched Structure | Materion |
13 | Jensen | Lightweight Scaleable Manufacturing of X-Ray Telescope Optics | ReliaCoat |
14 | Xin | Advanced Optical Metrology: XRAY Replication Mandrels & Mirrors | AOS |
15 | Singh | High-resolution detector for at-wavelength metrology of X-ray optics | RMD |
Coating Technology (OPEN) | |||
16 | Sheikh | Low-Stress Si Cladding for Surface Finishing Large UVOIR Mirrors | ZeCoat |
17 | Carnahan | Nanostructured Optical Black Coatings for Stray Light Suppression | NanoLab |
Strategic Astrophysics Technology Development Programs (OPEN) | |||
18 | Bala | Investigating Coating Materials and Process for FUV to NIR | JPL |
BREAK to Switch from OPEN to ITAR | |||
Coating Technology (ITAR) | |||
19 | Goodman | Mirrors/Coatings for Ballistic Missile Defense Systems | Trex |
Wednesday October 2, 2013 |
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Title | Presenter | Company |
Strategic Astrophysics Technology Development Programs (OPEN) | |||
20 | Stahl | Advanced Mirror Technology Development (AMTD) Project: Status | NASA |
21 | Stahl | AMTD: Science Derived Engineering Requirements | NASA |
22 | Matthews | AMTD: Deep Core Mirror Development Status | Exelis |
23 | Eng | AMTD: Thermal Characterization & Model Correlation | NASA |
24 | Arnold | AMTD: Integration of Mirror Design with Suspension System Using NASA’s New Mirror Modeling Software | DAI |
Optical Engineering (OPEN) | |||
25 | Kuhn | Compact Instrument for Stray-light Detection and Diagnosis in Telescopes | Opt-E |
Material & Substrate Technology (OPEN) | |||
26 | Goodman | T300/SiC HoneySiC for Mirrors | Trex |
27 | Mu | Adhesive-Free Edge-Bond Single Crystal Silicon Mirror Substrate | Onyx Optics |
28 | Hull | Preparing Schott Extreme Lightweight Zerodur Mirror for Testing at MSFC | Schott |
Optical Metrology Technology (OPEN) | |||
29 | Eng | Liguid-He Cooling of a Lightweight Porous Mirror | NASA |
Optical Fabrication Technology (OPEN) | |||
30 | Singh | Damage-Free Ultra-Smooth Surface Finish for Polycrystalline SiC Mirrors | Sinmat |
31 | Nelson | Smoothing MSF Errors on Aspheric Surfaces | Optimax |
Nelson | Polycrystalline Aspheres and Freeforms | Optimax | |
32 | Walker | NASA SBIR Success Story: Active Edge-control in Polishing of Mirror Segments and Other Applications | Zeeko |
33 | Eng | Ormond’s Low Residual Surface Stress Water Jet Milling | NASA |
34 | Casstevens | Low Cost Very Large Diamond Turned Metal Mirror | DOS |
Active Mirror Technology (OPEN) | |||
35 | Wellman | Active Primary Mirrors for Large Space Telescopes | AOA-Xinetics |
36 | Patterson | Lightweight Deformable Mirrors for Space Telescopes | Caltech |
37 | Laslandes | Optimizaton of Actuator Topology for Lightweight Deformable Mirrors | Caltech |
38 | Helmbrecht | MEMS Deformable Mirror Development for Space-Based Exoplanet Detection | Iris AO |
39 | Helmbrecht | MEMS Deformable Mirror Development for Laser Applications | Iris AO |
40 | Ryan | MEMS Deformable Mirrors Advancements for Space Telescopes | BMM |
BREAK to Switch from OPEN to ITAR | |||
Active Mirror Technology (ITAR) | |||
41 | Wu | Develop Low Mass, Low Power DMs with Integrated Driver Electronics | Microscale |
42 | Helmbrecht | Space Qualification of a MEMS Deformable Mirror | Iris AO |
Thursday October 3, 2013 |
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Title | Presenter | Company |
Material & Substrate Technology and Opto-Mechanical Technology (ITAR) | |||
43 | McCarter | Single Crystal Si HEL Mirrors | McCarter |
44 | Karandikar | High Toughness and Very High Thermal Conductivity SiC and B4C for Optical Components | M Cubed |
Optical Fabrication Technology (ITAR) | |||
45 | Mohring | Fabrication of Freeform Conic Mirrors and Mandrels | OptiPro |
46 | Fess | Freeform Optics and Conformal Window Processing | OptiPro |
Optical Engineering (ITAR) | |||
47 | Robichaud | SiC Optical System for Joint Milli-Arcsecond Pathfinder Survey (JMAPS) Space Mission | L-3 Com/IOS |
Computational Imaging (ITAR) | |||
48 | Ranalli | Computational Imaging for Active and Passive Telescopes | Ziva |
Optical Mechanical Technology (ITAR) | |||
49 | Goodman | Nicalon/SiC HoneySiC Structures for Space | Trex |
50 | Ring | Large Deployable Optical Sunshade | MMA |
MOIRE (Distribution C: US Gov and Contractors) | |||
51 | Atcheson | Initial Performance of MOIRE Brassboard Membrane DOE Telescope | BATC |
Progress in Active Space Optical Systems (Distribution C: US Gov and Contractors) 4 hrs | |||
52 | Laskin | Some Recent Developments in Active Optics | JPL |
53 | Mok | Segmented Mirror Telescope Testbed: Overview, Integration Approach and Performance Summary | JPL |
54 | Redding | Segmented Telescope Wavefront Control: Achieving and Maintaining High Optical Quality | JPL |
55 | Alavarez-Salazar | Dynamics & Controls Architecture and Performance Results for a Segmented Mirror Telescope | JPL |
56 | Nissen | Thermal Modeling and Control of a 1.2m SiC Nano-laminate Mirror | JPL |
57 | Sprunt | Designing, Tuning and Testing the Dynamics of Segmented Mirror Telescopes for Optical Performance | ATA |
58 | Schwartz | Advanced Active Hybrid Mirror Segment Development | AOA-Xinetics |
59 | Lay | Laser Metrology System for a Segmented Mirror Telescope | JPL |
Friday October 4, 2013 |
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Title | Presenter | Company |
JWST (ITAR) | |||
60 | Arenberg | JWST Overview and Status | NGC |
61 | Matthews | OTE Alignment, Integration and Test Status | Exelis |
62 | Werner/Redding | Beyond JWST | JPL |
Contact Phil Stahl for copy of any paper