(Click for larger image)
November 18th | November 19th | November 20th
Technology Days 2014 |
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Tuesday November 18, 2014 |
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Presenter | Title | Company |
SBIR Workshop and Government Technology Needs (OPEN) | |||
00 | Stahl | Welcome | NASA |
01 | Perez | Mirror Technologies for NASA Astrophysics | NASA |
02 | Shaklan | SBIR Topic S2 Need overview | JPL |
03 | Stahl | SBIR Subtopic S2.03 overview | NASA |
04 | Blake | SBIR Subtopic S2.04 overview | NASA |
05 | Lewis | New NASA SBIR Program Initiatives for Post Phase 2 | JPL |
Future Large Aperture UVOIR Telescope (OPEN) | |||
06 | Clampin | Science with a Future Large Aperture UVOIR Telescope | |
07 | TBD | Discovery and Characterization of Candidate Planet vs Aperture, etc. | |
08 | Feinberg | ATLAST 10-m class architecture studies | NASA |
09 | Stahle | ATLAST Technology Roadmap | NASA |
10 | Shaklan |
Segmented Telescope Stability Error Budget for Exo-Earth Direct Imaging
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JPL |
11 | Breckinridge | Image quality and polarization in large aperture telescope systems | Caltech & UoAZ |
AMTD-II (OPEN) | |||
12 | Stahl | Overview & Status | NASA |
13 | Stahl | Engineering Specifications | NASA |
14 | Matthews | Exelis 1.5m Pathfinder Mirror status | Exelis |
15 | Hull | Schott Extreme lightweight Zerodur mirror status | UNM/Schott |
16 | Eng | AMTD-II test plan and preparation | NASA |
17 | Arnold | Point Design Accomplishments & Status | NASA |
JWST (OPEN) | |||
18 | Feinberg | Plans for Pathfinder Testing at JSC | NASA |
19 | Matthews | JWST Pathfinder Telescope Mirror Integration | Exelis |
20 | Matthews | JWST Cryo Test Equipment Status and Readiness for Pathfinder | Exelis |
21 | Saif | Modal testing with high speed interferometer | NASA |
Structures (OPEN) | |||
22 | Michel | Fabrication of a lightweight CTE matched optical structure from Be/BeO Metal Matrix Composite | Materion |
Space Qualifications Testing (ITAR) | |||
23 | McCarter | Single Crystal Silicon/Glass Frit Bonding test on MISSE I/II X-37B Experiment | McCarter |
POSTER PAPERS | |||
— | Qiao |
Differential wavefront sensor based on binary pixelated transmission filters
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Rochester Institute of
Technology
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Wednesday November 19, 2014 |
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Title | Presenter | Company |
Telescope Technology (OPEN) | |||
24 | Loomis | Low Cost, Lightweight, 2.5 Meter Aperture, Micron Level Surface Accuracy Telescope Development | Vanguard Space Technologies |
Optical Design (OPEN) | |||
25 | Reimers | New Methods for the Optical Design of Spectrometers with Freeform Surfaces | Univ. of Rochester |
26 | Catanzaro | Integrated opto-mechanical design and analysis | CFE Services |
Mirror Technology (OPEN) | |||
27 | Goodman | T300HoneySiC – Problems Solved | Trex Enterprises |
28 | Jensen | Lightweight, Scalable Manufacturing of Telescope Optics | ReliaCoat Tech |
29 | Hardesty | Matching NiP on Be-38Al for Low Temp Mirrors | Peregrine |
30 | Karandikar | Metal matrix composite (MMC) optics and structure | M Cubed |
31 | Eng | Cryo test results of M-Cubed Technologies SiC/CNT and SiC mirrors | NASA |
32 | Jacoby | Cryo test results of hybrid skin SiC mirror | OPCI |
33 | Eng | Additive manufacturing of lightweighted metal mirrors | NASA |
Optical Metrology Technology (OPEN) | |||
34 | Millerd | Success Story: Growing a NASA-Sponsored Metrology Project to Serve Many Applications and Industries | 4D Technology |
Optical Fabrication Technology (OPEN) | |||
35 | Walker | Advances in active edge control, as applied to 1.4m hexagonal mirror segments | Zeeko Ltd. |
36 | Mohring | Fabrication of Freeform Optics and Conic Mirror Mandrels | OptiPro |
37 | DeFisher | Optical Characterization of Complex Freeform Surfaces | OptiPro |
38 | Medicus | Smoothing mid-spatial frequency errors on free-form surfaces | Optimax |
39 | Shore | Rapid fabrication of advanced optics: 1 foot2 per hour | Loxham Precision |
40 | Han | Mirror polishing technology with Tool Influence Function for SiC | KASI/NOAO |
41 | Alberts | Abrasive waterjet milling for mirror pockets | Ormond |
Deformable Mirror Technology (OPEN) | |||
42 | Ryan | State of the art in MEMS deformable mirrors | Boston Micromachines |
43 | Helmbrecht | MEMS Deformable Mirror Development for Space-Based Exoplanet Detection | Iris AO |
44 | Helmbrecht | MEMS Deformable Mirror Development for Laser Applications | Iris AO |
Deformable Mirror Technology (ITAR) | |||
45 | Helmbrecht | Space Qualification of a MEMS Deformable Mirror | Iris AO |
46 | Wu | Driver ASICs for Advanced Deformable Mirrors | Microscale |
Thursday November 20, 2014 |
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Title | Presenter | Company |
Optical Coating Technology (OPEN) | |||
47 | Quijada | Recent Progress on 2012 SAT for UVOIR Coatings | NASA |
48 | Bala | FUV to NIR mirror coatings development status | JPL |
49 | Sheikh | ZeCoat | |
50 | Sheikh | Broadband Reflective Coating Process for Large FUVOIR Mirrors | ZeCoat |
51 | Carnahan | Nanostructured optical black coatings | NanoLab |
Design Tools (ITAR) | |||
52 | Brooks | Thermal induced wavefront error model of space telescope mirrors | NASA |
53 | Arnold | Mechanical Model Tool Accomplishments & Status | NASA |
Future Large Aperture UVOIR Telescope (FOUO) | |||
54 | Jackman | SLS: Payload Accommodation, Launch Environment and potential 2018-2022 Flight Opportunities | NASA |
55 | Stahl | SLS Enable Space Telescope Concepts | NASA |
56 | Polidan | Ideas for Secondary SLS Payload Missions | Northrop-Grumman |
57 | Oschmann | Utilizing Excess SLS Payload Capability | BATC |
Telescope Technology (FOUO) | |||
58 | Styer |
Prototype and Test Trex CVC SiC Secondary, Tertiary, and Quaternary Mirrors Plus Mount a Primary Mirror/Secondary Mirror Subassembly to an Invar Warm Stop for the SM-3 Thermally Insensitive Telescope
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Trex Enterprises
Corp.
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Telescope Technology (ITAR) | |||
59 | Breckinridge | Evolvable space telescope: first stage: bow-tie – a 4 by 12 meter space aperture | Northrop Grumman & Breckinridge Assoc. |
60 | Lillie | Key Technologies for an Evolvable Space Telescope | Northrop Grumman & Breckinridge Assoc. |
61 | MacEwen | Evolvable space telescope: step-wise evolution technology needs | Reviresco LLC |
62 | Zamel | Critical Technologies for Future Large Telescopes | Northrop Grumman |
63 | Van Halle | Deployable One Meter Optical Telescope for Small Spacecraft Using AFRL Composite Tape Technologies | MMA Design LLC |
Image Processing (ITAR) | |||
64 | Catanzaro | Wavefront Coding Techniques to Relax Opto-Mechanical Tolerances in Reflective Space Optics | CFE Services |
Mirror Technology (ITAR) | |||
65 | Mooney | Replication of Lightweight ULE Mirrors | Exelis |
66 | Martin | Double Replication of CFRP Optical Mirrors | CMA |
67 | Goodman | RadHard SiC Mirror for Missile Defense | Trex Enterprises Corp. |
68 | Maji | Large Diffractive Optic – Opportunities and Tradeoffs | Univ. of New Mexico |
Contact Phil Stahl for copy of any paper