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Tuesday November 14
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Presenter |
Title |
Org |
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Government Technology Needs (OPEN) |
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00 |
Stahl
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NASA Welcome |
NASA |
01 |
Grant
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Collaborative Opportunities within NASA's STMD Portfolio |
NASA |
02 |
Thronson
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NASA’s Physics of The Cosmos and Cosmic Origins Program Office: Investments to Enable Future NASA Strategic Astrophysics Missions |
NASA |
03 |
Crill
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Technology Needs for Exoplanet Exploration Program |
JPL |
04 |
Bolcar
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Technology Needs for LUVOIR |
NASA |
05 |
Dipirro
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Technology Needs for OST |
NASA |
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SBIR Workshop (OPEN) |
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06 |
Lewis
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Post-Reauthorization SBIR Technology Infusion and Commercialization |
JPL |
07 |
Shaklan
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SBIR Topic S2: Advanced Telescope Systems |
JPL |
08 |
Stahl
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SBIR Subtopic S2.03 Advanced Optical Systems and Fabrication/Testing/Control Technologies for EUV/Optical and IR Telescope overview |
NASA |
09 |
Shiri
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SBIR Subtopic S2.04 X-Ray Mirror Systems Technology, Coating Technology for X-Ray-UV-OIR, and Free-Form Optics overview |
NASA |
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SBIR Commercialization Success Story (OPEN) |
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10 |
Kashalikar
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Amorphous Si claddings are deposited at low temperature |
Surmet |
11 |
Carnahan
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Optical and Infrared absorbance of nanotube based, optical black coatings and paints |
NanoLab |
12 |
Walker
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EELT Prototype Mirror Segments and Beyond - Large Optics and Automation |
Zeeko;
U-Huddersfield
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OPEN TECHNOLOGY SESSIONS |
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Additive Manufacturing Mirror Technology (OPEN) |
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13 |
Casstevens
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Additive Manufactured Very Light Weight Diamond Turned Aspheric Mirror |
DOS |
14 |
Goodman
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3D Printed Silicon Carbide Scalable to Meter-Class Segments for Far-IR |
Goodman Tech |
15 |
Harrison
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Additively Manufactured, Thermally Stable Telescope Mirror Substrates |
ASTS |
16 |
Schaedler
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Additive manufacturing of polymer derived ceramics |
HRL |
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Mirror Technology (OPEN) |
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17 |
Lumpkins
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Silica-Silica Mirror Substrate Fabrication Technology |
Mentis |
18 |
Easter
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Large-Scale, Low Cost, Molded SiOC Mirror Component |
Semplastics |
19 |
Hardesty
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Matching NiP on Be-38Al for Low Temp Mirrors |
Peregrine |
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Optical Metrology Technology (OPEN) |
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20 |
Matthews
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Developments in Non-Contact Metrology and Data Analytics |
Optipro |
21 |
North-Morris
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High Speed Interferometry for Evaluating the Vibrational Response of Mounted JWST Segments |
4D |
22 |
Olczak
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PHAST: Phased Holographic Aspheric Stitching Technique |
Harris |
23 |
Markov
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Rendering of Spatio-Temporal Dynamic of Deformable Mirrors |
AS&T Inc. |
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Wednesday Nov 15
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Stable Telescope Technology (OPEN) |
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24 |
Livas
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Optical Telescope for the LISA Gravitational Wave Observatory |
NASA |
25 |
Saif
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Ultra-Stable Structures: Develop & Character using Spatial Dynamic Metrology |
NASA |
26 |
Hardesty
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Advanced Athermal Telescopes |
Peregrine |
27 |
Han
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Optical characterization of 300 mm SiC mirrors due to thermal variatinos |
KASI |
28 |
Monroe
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New Developments in Allvar Alloys |
Allvar |
29 |
Fischer
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Ultra-Stable Zero-CTE HoneySiC and H2CMN Mirror Support Structures |
ASCM |
30 |
Catanzaro
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Lightweight, Stable Optical Benches in Silicon Carbide and Beryllium |
CFE |
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Telescope & Instrumentation Technology (OPEN) |
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Free-Form Optics (OPEN) |
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31 |
Conkey
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Freeform Optics for Optical Payloads with Reduced Size and Weight |
Voxtel |
32 |
Bauer
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Analyzing Aberration Fields of Three-mirror Telescope and Correcting them Using Freeform Zernike Surfaces |
UoR |
33 |
Papa
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Four-Mirror Freeform Design |
UoR |
34 |
Horvath
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Optomechanical Design and Fabrication of a Snap Together Freeform TMA Telescope |
UNCC |
Poster |
Matthews
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Freeform Manuracturing |
Otipro |
35 |
Catanzaro
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STOP modeling and Wavefront Sense / Control In support of GHAPS |
CFE |
36 |
Myer
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Developments of Fully Monolithic Freeform Telescopes |
Optimax |
37 |
Menon
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Combining machine learning, computation & micro-optics to enable reduced SWAP multi-spectral imaging systems |
UoUT |
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X-Ray Technology (OPEN) |
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38 |
Young
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Manufacturing Optics for the Imaging X-ray Polarimeter Explorer (IXPE) Mission |
NASA |
39 |
Ponsor
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Pre-collimator Chemical Milling for X-ray Telescopes |
Mindrum |
40 |
Tyurina
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BeatMark Software to reduce the cost of X-Ray mirror fabrication |
Second Star Algonumerix |
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HabEx (OPEN) |
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41 |
Stahl
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HabEx Telescope Structural Design & Performance Prediction |
NASA |
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Coating Technology (OPEN) |
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42 |
Quijada
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Improving LUVOIR FUV instrument capabilities through enhanced coatings |
NASA |
43 |
Sheikh
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Battery-powered process for coating telescope mirrors in space |
Zecoat |
44 |
Broadway
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In-situ stress measurement of single and multilayer thin-films for x-ray optics. |
NASA |
45 |
Kennel
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Pyramid Nanostructured Coatings for Stray Light Suppression |
Applied Sci |
46 |
Vijayraghavan
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Proximity Glare Suppression for Astronomical Coronagraphy |
Nanohmics |
47 |
Hamilton
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Intelligent Mirror Geometry for Detection, Power Production, Imaging |
Sun Synchrony |
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Thursday November 16
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Exoplanet Exploration Program (ExEP) Technology (OPEN) |
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48 |
Trauger
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WFIRST Coronagraph Instrument (CGI) Update |
JPL |
49 |
Helmbrecht
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MEMS Deformable Mirror Development at Iris AO |
Iris AO |
50 |
Bierden
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MEMS Deformable Mirrors |
Boston MM |
51 |
Ziemer
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Starshade Technology Activity |
JPL |
52 |
Harness
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Starshade Subscale Testing/Model Validation |
Princeton U |
53 |
Hamilton
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Starshade Contamination Control with First Contact Polymers |
PCT |
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Telescope Architectures (OPEN) |
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54 |
Mukkerjee
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In-space Assembly of Large Telescopes for Exoplanet Direct Imaging |
JPL |
55 |
MacEwen
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Future Assembly and Servicing of Space Telescopes |
Reviresco |
56 |
Coppejans
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DOMinATE a Deployable Vis-IR Optical MembrAne Telescope concept |
Northwestern |
57 |
Young
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Probe Of Extreme Multi-Messenger Astrophysics (POEMMA) Instrument and Mission details |
NASA |
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Active Control Technology (OPEN) |
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58 |
Shelton
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Next-Generation Deformable Mirrors for Astronomical Coronagraphy by Utilizing PMN-PT Single Crystal Stack Actuators in integration with Driver ASIC |
Microscale |
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ITAR TECHNOLOGY SESSIONS |
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AMTD (ITAR) |
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59 |
Stahl
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AMTD Final Results |
NASA |
60 |
Mooney
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AMTD-2: Stacked Core ULE® Mirror |
Harris |
61 |
Eng
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1.5-m ULE® Cryo & Mechanical Test Results |
NASA |
62 |
Brooks
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Computed Tomography and Stiction in a Low Temperature Slumped Mirror |
NASA |
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Mirror Technology (ITAR) |
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63 |
Dunn
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Primary Mirror Fabrication for Rotating Synthetic Aperture (RSA) Imaging |
UTAS |
64 |
Southard
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3D Printing of Ultra-Low Expansion (ULE®) Glass |
UTAS |
65 |
Mooney
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Advanced Mirror Construction – ULE® Replication |
Harris |
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JWST (ITAR) |
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66 |
Feinberg
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OTE/ISIM Integration and Test Summary |
NASA |
67 |
Keski-Kuha
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Ambient Center of Curvature Testing |
BATC |
68 |
Daly
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OTIS Ambient I&T |
Harris |
69 |
Texter
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Deployment Tests and Results |
NGST |
70 |
Wells
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JWST Primary Mirror Cryogenic Phasing and Performance Testing at JSC |
Harris |
71 |
Knight
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Early Cryo-Optical Test Results |
BATC |
72 |
Wells
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Early Cryo-Photogrammetry Results |
Harris |