Long-Wave Infrared (IR) Window/Dome Life-Cycle Cost (LCC) Reduction
Navy SBIR 2019.2 - Topic N192-055
NAVAIR - Ms. Donna Attick - donna.attick@navy.mil
Opens: May 31, 2019 - Closes: July 1, 2019 (8:00 PM ET)

N192-055

TITLE: Long-Wave Infrared (IR) Window/Dome Life-Cycle Cost (LCC) Reduction

 

TECHNOLOGY AREA(S): Air Platform, Battlespace, Materials/Processes ACQUISITION PROGRAM: PMA265 F/A-18 Hornet/Super Hornet

OBJECTIVE: Identify and demonstrate new processes, new treatments, and/or new materials to produce an order- of-magnitude reduction in production time and cost for windows and/or domes suited for long-wave infrared


(LWIR) / mid-wave infrared (MWIR) multispectral applications.

 

DESCRIPTION: In the last 20 years, significant strides have been made in new growth methods for near-net shapes (e.g., edge-defined film-fed growth), treatments (e.g., anti-erosion coatings), and materials (e.g., ceramics, spinels) for use in mid-wave (MW) and short-wave (SW) infrared (IR) windows and domes. During the same period, almost no investment has been made to expand the availability of materials for LWIR use, and the number of available U.S. suppliers for relevant processes and coatings has dwindled. A single LWIR germanium dome for military applications can cost over $200K, can take up to one year to produce, and may require post-processing and/or coatings and treatments from foreign vendors. Innovative sources and methods are sought for new materials, growth techniques, and/or treatments to enable production of multi-spectral (MWIR through LWIR) windows and domes to 10 inches across, with strength and optical properties equal to or exceeding those made of germanium for under

$50K per item.

 

PHASE I: Identify novel manufacturing methods and/or new treatments/materials to permit development of a dual- band (MWIR/LWIR) dome/window with optical and physical strength characteristics to meet or exceed those made of germanium. Ensure that selected methods and materials have no intrinsic limitations to scaling to sizes of 100 square inches (window) or 10 inches in diameter (hemispherical dome). The Phase I effort will include prototype plans to be developed under Phase II.

 

PHASE II: Produce an 8-inch (minimum) diameter hemispherical dome suitable for use in LWIR optical systems (with nothing to preclude extension of the technology to larger sizes and to MWIR/LWIR dual-band use) with optical transmission, wavefront error, physical strength, and water solubility performance capabilities meeting or exceeding performance of .25" thick single-crystal germanium, at a per-unit cost below $50K.

 

PHASE III DUAL USE APPLICATIONS: Produce and provide antireflection coatings, and characterize the optical performance of five hemispherical domes of a to be specified diameter less than 8 inches. Demonstrate (1) optical transmission greater than 70% in both the mid-wave and long-wave optical bands, with optical transmission loss and wavefront error less than or equal to that observed, and (2) scratch and rain erosion resilience equal to or greater than that observed, for 0.25-inch-thick germanium slabs of the same thickness. Ensure that domes exhibit transmission to temperatures of 120°C and 12 microns, with target per unit cost of below $50K and production lead time less than 5 months.

 

Successful technology development would have applications in commercial photonics and thermal analyses. This technology will have applications in any dual-band infrared remote sensing application. Specific potential applications include identifying crop/vegetation types, assisting law enforcement in identifying illegal crop types/locations, environmental sensing, wildfire mapping, chemical dispersion mapping, or pollution/contrail assessment. Broad categories of industries that may benefit include petroleum (for assessing types of geological formations), agriculture, and ecological/biological industries.

 

REFERENCES:

1.   Bayya, S., Sanghera, J., Kim, W., Villalobos, G., and Aggarwal, I. “Recent Advancements in Multiband IR Sensor Windows.” Optical Components and Materials IX 2012. SPIE Proceedings: San Francisco https://www.spiedigitallibrary.org/conference-proceedings-of-spie/8257/1/Recent-advancements-in-multiband-IR- sensor-windows/10.1117/12.910149.short

 

2.   Chalmers, B., Labelle Jr., H., and Mlavsky, A. “Edge-defined, film-fed crystal growth.” Journal of Crystal Growth, 1972, pp. 84-87. https://www.researchgate.net/publication/244248521_Edge-defined_film- fed_crystal_growth

 

3.   Harris, D. Materials for Infrared Windows and Domes. Society of Photographic Instrumentation Engineers, 1999. https://spie.org/publications/book/349896?_ga=2.83614613.2031369234.1531401978- 259269508.1531313709&SSO=1


4.   Rogatto, William D., ed. The Infrared and Electro-Optical Systems Handbook, Volume 3: Electro-Optical Components, Infrared Information Analysis Center, Environmental Research Institute of Michigan: Ann Arbor, MI, USA and SPIE Optical Engineering Press: Bellingham, WA, USA, 1993, Chapters 1 and 2. http://www.dtic.mil/docs/citations/ADA364017

 

KEYWORDS: LWIR Window; Dual Band Window; IR Dome; Infrared Dome; Optical Window; Long Wave Dome

 

TPOC-1:

Ann Reagan

Phone:

301-757-7605

 

TPOC-2:

Mary Locke

Phone:

301-342-2535

 

** TOPIC NOTICE **

NOTICE: The data above is for casual reference only. The official DoD/Navy topic description and BAA information is available on FedBizOpps at www.fbo.gov/index?s=opportunity&mode=form&id=0a3eac1d27ab54cfe57a0339b3f863d8&tab=core&_cview=0

These Navy Topics are part of the overall DoD 2019.2 SBIR BAA. The DoD issued its 2019.2 BAA SBIR pre-release on May 2, 2019, which opens to receive proposals on May 31, 2019, and closes July 1, 2019 at 8:00 PM ET.

Between May 2, 2019 and May 30, 2019 you may communicate directly with the Topic Authors (TPOC) to ask technical questions about the topics. During these dates, their contact information is listed above. For reasons of competitive fairness, direct communication between proposers and topic authors is not allowed starting May 31, 2019
when DoD begins accepting proposals for this BAA.


Help: If you have general questions about DoD SBIR program, please contact the DoD SBIR Help Desk at 800-348-0787 or via email at sbirhelpdesk@u.group