Technology Days 2015
|
Tuesday November 17, 2015
|
#
|
Presenter |
Title |
Company |
|
Government Technology Needs (OPEN) |
00 |
Stahl |
Welcome |
NASA |
01 |
Hertz |
Astrophysics Division Technology Needs |
NASA |
02 |
Siegler |
Exoplanet Technology Needs |
JPL |
03 |
Seery |
COR & PCOS Technology Needs |
NASA |
04 |
Bolcar |
LUVOIR Technology Needs |
NASA |
05 |
Max |
WFIRST Technology Needs |
NASA |
|
SBIR Workshop (OPEN) |
06 |
Lewis |
NASA SBIR Program |
JPL |
07 |
Shaklan |
SBIR Topic S2 Need overview |
JPL |
08 |
Stahl |
Subtopic S2.03 Advanced Optical Systems & Fabrication/Testing/Control Technologies for EUV/Optical & IR |
NASA |
09 |
Shiri |
Subtopic S2.04 X-Ray Mirror Systems Technology, Coating Technology for XRay-UVOIR & Free-Form Optics |
NASA |
|
SBIR Commercialization Success Story (OPEN) |
10 |
Genberg |
SigFit Optomechanical Analysis Software, an SBIR success story |
Sigmadyne |
11 |
Nelson |
Optimax SBIR commercialization success |
Optimax |
|
SBIR Infusion Success Story (OPEN) |
12 |
Lourie |
The BLAST-TNG telescope for high-resolution balloon-borne submillimeter polarimetry |
U Penn |
|
Telescope technology (OPEN) |
13 |
Breckinridge |
High transmittance UVOIR Space Telescope prime focus concepts & technologies |
BA |
14 |
MacEwen |
Infrastructure for a permanent LUVOIR Observatory in Space |
Reviresco |
15 |
Lillie |
Designing for On-Orbit Assembly and Servicing |
LC |
|
Capability Review (OPEN) |
16 |
Young |
Optics Capability at Marshall Space Flight Center |
NASA |
|
Mission Concept Studies (OPEN) |
17 |
Stahl |
ATLAST-12 Mission Concept Study |
NASA |
|
Optical Coatings (OPEN) |
18 |
Quijada |
WFIRST Prototype Filter Optical Characterization |
NASA |
19 |
Sheikh |
Low-Stress Silicon Cladding for Surface Finishing Large UVOIR Mirrors |
ZeCoat |
20 |
Hagopian |
Nanotube Black Coatings to suppress straylight and diffraction |
General Nanophotonics |
|
Optical Design (OPEN) |
21 |
Schiesser |
Tools for Visualizing the Solution Space for Freeform Three-Mirror Anastigmats |
UoR |
|
Optical Manufacturing (OPEN) |
22 |
Tricard |
Optics manufacturing at the sub-nanometer level |
Zygo |
Wednesday November 18, 2015
|
#
|
Title |
Presenter |
Company |
|
Mirror Technology (OPEN) |
23 |
Jensen |
Lightweight, Scalable Manufacturing of X-ray Telescope Optics |
ReliaCoat |
24 |
Chen |
Smart materials optical mirrors |
Lightweight Telescopes |
25 |
Hardesty |
Matching NiP on Be-38Al for Low Temp Mirrors |
Peregrine |
26 |
Easter |
Ultra-low Cost Lightweight, Molded, Chalcogenide Glass-Silicon Oxycarbide Composite Mirror Components |
Semplastics |
27 |
Sawyer |
Heraeus Quartz Glass Opaque Fused Silica Optical Diffuser |
Heraeus |
28 |
Casstevens |
Additive Manufactured Very Light Weight Diamond Turned Aspheric Mirror |
DOS |
29 |
Goodman |
T300HoneySiC: A New Zero-CTE CMC |
Trex |
30 |
Goodman |
Solid State Bonded CVC SiCR for Large UVOIR Telescope Mirrors and StructuresSolid State Bonded CVC SiCR for Large UVOIR Telescope Mirrors and Structures |
Trex |
31 |
Medicus |
Freeform Advances at Optimax, Manufacturing and Measurement |
Optimax |
32 |
Medicus |
Additive Manufacturing for Lightweight Mirrors |
Optimax |
33 |
Eng |
Additive manufacturing of lightweighted mirrors |
NASA |
34 |
Sweeney |
Application and Testing of Additive Manufacturing for Mirrors and Precision Structures |
GD |
|
Optical Fabrication Technology (OPEN) |
35 |
Mohring |
Optical Surface Results utilizing the 5 and 6-Axis UltraForm Finishing Platforms |
OptiPro |
36 |
Alberts |
Abrasive waterjet core cutting of ULE |
Ormond |
37 |
Han |
Tool Influence Function (TIF) characteristics of SiC mirrors |
KASI |
|
Optical Metrology Technology (OPEN) |
38 |
Yashchuk |
InTILF Method for Analysis of Polished Mirror Surfaces: Current Status and Plans |
LBL |
39 |
DeFisher |
Non-Contact Metrology of Freeform Surfaces |
OptiPro |
40 |
Ebersole |
High Performance Computing (HPC) Accelerated Inverse Deflectometry for Mirror Segment Metrology |
SURVICE Eng |
|
AMTD-II (OPEN) |
41 |
Stahl |
Overview & Status |
NASA |
42 |
Stahl |
Coronagraph WFE Stability Modeling |
NASA |
43 |
Brooks |
Thermal Stability Modeling |
NASA |
44 |
Eng |
Test plan and status |
NASA |
45 |
Arnold |
AMM Status and Point Design |
NASA |
Thursday November 19, 2015
|
#
|
Title |
Presenter |
Company |
|
Exoplanet Exploration Program (ExEp) Technology (OPEN) |
46 |
Lyon |
Visible Nulling Coronagraph |
NASA |
47 |
Shaklan |
Coronagraph Modeling Validation |
JPL |
48 |
Warwick |
Optical Performance Demonstrations of a Starshade in the Field |
NGA |
49 |
Kim |
Design of a starshade at flight Fresnel numbers in the lab |
Princeton |
50 |
Shaklan |
Starshade Technology Status |
JPL |
51 |
Demers |
Technology Development for the First High-Contrast Space Coronagraph – WFIRST |
JPL |
|
Deformable Mirror Technology (OPEN) |
52 |
Cornelissen |
Advancements in MEMS deformable Mirrors |
BMM |
53 |
Helmbrecht |
MEMS Deformable Mirror Development at Iris AO |
Iris AO |
|
ITAR TECHNOLOGY SESSIONS |
|
Deformable Mirror Technology (ITAR) |
54 |
Wu |
State of Art Driver ASICs for Advanced Deformable Mirrors |
Microscale |
|
Space Qualification Testing (ITAR) |
55 |
McCarter |
Single Crystal Silicon SBIR Technology Infusion for Space Debris Mitigation |
McCarter |
|
Image Processing (ITAR) |
56 |
Catanzaro |
Wavefront coding to relax opto-mechanical tolerances |
CFE |
|
Mirror Technology (ITAR) |
57 |
Wilson |
Cryo-Vac Testing of Large Autocollimating Flats for JWST Using a Skip Test |
Harris |
58 |
Egerman |
AMTD-2: Scaled down UVOIR mirror design and fabrication status |
Harris |
59 |
Mooney |
Advanced Mirror Construction for short cycle time, low cost, high precision mirrors |
Harris |
60 |
Goodman |
Nicalon/HoneySiC: A New Zero-CTE CMC for Missile Defense |
Trex |
61 |
Styer |
Trex CVC SiCR SM-3 Thermally Insensitive Silicon Carbide Telescope |
Trex |
|
Mission Concept Studies (ITAR) |
62 |
Feinberg |
ATLAST-9.2m Stability Architecture Update |
NASA |
63 |
Eisenhower |
ATLAST ULE mirror segment performance analytical predictions based on thermally induced distortions |
SAO |
|
JWST(ITAR) |
64 |
Atkinson |
JWST OTE Status |
NGC |
65 |
Greenhouse |
JWST Science Instrument Payload: Science Context and Status |
NASA |
66 |
Daly |
JWST Integration Status |
Harris |
67 |
Feinberg |
JWST Pathfinder Optical Results |
NASA |
68 |
Arenberg |
JWST Sunshield Status |
NGC |