Dr. Ron S. Shiri Profile

Dr. Ron S. Shiri

Research Physicist at NASA Goddard Space Flight Ctr

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Author

Publications (26)

Proceedings Article | 31 August 2022 Poster + Paper

A concept for a deployable normal incidence EUV mirror based on shape memory alloy sheets

Melville Ulmer, Jeffrey Dugard, Daniel Quispe, Donald Buchholz, Steve Stagon, Yip-Wah Chung, Jian Cao, Konstantina Kritikos, Nicolas Guerra, Mark Stahl, Ron Shiri, Rajan Vaidyanathan

Proceedings Volume 12181, 1218131 (2022) https://doi.org/10.1117/12.2630153

KEYWORDS: Mirrors, Extreme ultraviolet, Shape memory alloys, Polishing, Surface finishing, Reflectivity, Plating, Multilayers, Stars

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Proceedings Article | 20 August 2021 Poster + Paper

Black-silicon as a wideband infrared absorber for the space instruments: fabrication, modeling, and characterization

Ron Shiri, Christine Jhabvala, Aruna Ramanayaka, Alyssa Barlis, Manuel Quijada, Jessica Patel, Kevin Griffin, Brooke Fujishima, Edward Wollack

Proceedings Volume 11819, 118190N (2021) https://doi.org/10.1117/12.2594536

KEYWORDS: Absorbance, Reflectivity, Etching, Semiconducting wafers, Silicon, 3D modeling, Mathematical modeling, Infrared radiation, Aerospace engineering, Thermal modeling, Sensors

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SPIE Journal Paper | 17 August 2021

Measuring large amplitude surface figure error using coordinate metrology

Manal Khreishi, Raymond Ohl, Ryan McClelland, Ron Shiri, Tilak Hewagama, Shahid Aslam, Melville Ulmer, Edgar Canavan, Rongguang Liang

OE, Vol. 60, Issue 08, 084103, (August 2021) https://doi.org/10.1117/12.10.1117/1.OE.60.8.084103

KEYWORDS: Metrology, Mirrors, X-ray optics, Optical engineering, Silicon, Optical testing, Semiconducting wafers, Optical fabrication, Photovoltaics, Interferometry

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Proceedings Article | 4 August 2021 Presentation

High-contrast imager for complex aperture telescopes (HiCAT): 7. Dark zone demonstration with fully segmented aperture coronagraph

Rémi Soummer, Iva Laginja, Scott Will, Marshall Perrin, James Noss, Emiel Por, Susan Redmond, Raphaël Pourcelot, Ananya Sahoo, Peter Petrone, Keira Brooks, Laurent Pueyo, Bryony Nickson, Matt Maclay, Gregory Brady, Thomas Comeau, Julia Fowler, Kelsey Glazer, Rob Gontrum, John Hagopian, Theo Jolivet, Maggie Kautz, Lucie Leboulleux, Evelyn McChesney, Laurent Mugnier, Mamadou N'Diaye, Meiji Nguyen, Heather Olszewski, Leonid Pogorelyuk, Jaret Prothro, Jean-François Sauvage, Nathan Scott, Ron Shiri, Anand Sivaramakrishnan, Hari Subedi, Sam Weinstock, Yinzi Xin, Rebecca Zhang

Proceedings Volume 11823, 118230T (2021) https://doi.org/10.1117/12.2594684

KEYWORDS: Image segmentation, Coronagraphy, Telescopes, Imaging systems, Wavefront sensors, Wavefronts, Deformable mirrors, Ultraviolet telescopes, Ultraviolet radiation, UV optics

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Proceedings Article | 10 October 2019 Presentation + Paper

The bidirectional reflectance of black silicon used in space and Earth remote sensing applications

Georgi Georgiev, James Butler, Ron Shiri, Christine Jhabvala, Edward Wollack, Elena Georgieva

Proceedings Volume 11151, 111511E (2019) https://doi.org/10.1117/12.2534799

KEYWORDS: Silicon, Reflectivity, Remote sensing, Coronagraphy, Calibration, Bidirectional reflectance transmission function, Optical testing, Light scattering, Exoplanets, Aerospace engineering

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Proceedings Article | 9 September 2019 Presentation

High-contrast imager for complex aperture telescopes (HiCAT): 6. Two deformable mirror wavefront control (Conference Presentation)

Rémi Soummer, Iva Laginja, Scott Will, Roser Juanola-Parramon, Peter Petrone, Greg Brady, James Noss, Marshall Perrin, Julia Fowler, Heather Kurtz, Kathryn St. Laurent, Kevin Fogarty, Evelyn McChesney, Nathan Scott, Keira Brooks, Thomas Comeau, Marc Ferrari, Rob Gontrum, John Hagopian, Emmanuel Hugot, Lucie Leboulleux, Johan Mazoyer, Laurent Mugnier, Mamadou N'Diaye, Laurent Pueyo, Jean-François Sauvage, Ron Shiri, Anand Sivaramakrishnan, Ana-Maria Valenzuela, Neil Zimmerman

Proceedings Volume 11117, 111171Y (2019) https://doi.org/10.1117/12.2530299

KEYWORDS: Telescopes, Deformable mirrors, Imaging systems, Wavefronts, Wavefront sensors, Coronagraphy, Cameras, Ultraviolet telescopes, Image segmentation, Space telescopes

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Proceedings Article | 9 September 2019 Paper

Highly absorptive pupil mask fabricated with black silicon

Ron Shiri, Christine Jhabvala, Georgi Georgiev, Alyssa Barlis, Remi Soummer, Pete Petrone, Marc Kuchner, Edward Wollack, Michael Biskach, Timo Saha, Will Zhang, James Butler

Proceedings Volume 11116, 111161H (2019) https://doi.org/10.1117/12.2532567

KEYWORDS: Photomasks, Reactive ion etching, Etching, Silicon, Reflectivity, Cryogenics, Semiconducting wafers, Bidirectional reflectance transmission function, Exoplanets, Coronagraphy

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Proceedings Article | 18 September 2018 Presentation + Paper

Magnetostrictively deforming the surface of a silicon wafer at two locations

M. Ulmer, R. Coppejans, M. Khreishi, K. Keely, D. Buchholz, R. Shiri, L. Rodriguez, A. O'Donnell, Z. Schonfeld, W. Reinhardt, L. Borgsmiller, T. Baturalp, V. Coverstone, J. Cao

Proceedings Volume 10761, 107610B (2018) https://doi.org/10.1117/12.2322511

KEYWORDS: Magnetism, Mirrors, Silicon, Actuators, X-ray optics, Sputter deposition, Semiconducting wafers, Head, Roads, X-ray telescopes

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Proceedings Article | 21 August 2018 Presentation + Paper

High-contrast imager for complex aperture telescopes (HiCAT): 5. first results with segmented-aperture coronagraph and wavefront control

Rémi Soummer, Gregory Brady, Keira Brooks, Thomas Comeau, Élodie Choquet, Tom Dillon, Sylvain Egron, Rob Gontrum, John Hagopian, Iva Laginja, Lucie Leboulleux, Marshall Perrin, Peter Petrone, Laurent Pueyo, Johan Mazoyer, Mamadou N'Diaye, A. J. Eldorado Riggs, Ron Shiri, Anand Sivaramakrishnan, Kathryn St. Laurent, Ana-Maria Valenzuela, Neil Zimmerman

Proceedings Volume 10698, 106981O (2018) https://doi.org/10.1117/12.2314110

KEYWORDS: Coronagraphy, Space telescopes, Wavefronts, Telescopes, Metrology, Phase retrieval, Carbon nanotubes

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Segmented telescopes are a possible approach to enable large-aperture space telescopes for the direct imaging and spectroscopy of habitable worlds. However, the increased complexity of their aperture geometry, due to the central obstruction, support structures and segment gaps, makes high-contrast imaging very challenging. The High-contrast imager for Complex Aperture Telescopes (HiCAT) testbed was designed to study and develop solutions for such telescope pupils using wavefront control and coronagraphic starlight suppression. The testbed design has the flexibility to enable studies with increasing complexity for telescope aperture geometries starting with off-axis telescopes, then on-axis telescopes with central obstruction and support structures - e.g. the Wide Field Infrared Survey Telescope (WFIRST) - up to on-axis segmented telescopes, including various concepts for a Large UV, Optical, IR telescope (LUVOIR). In the past year, HiCAT has made significant hardware and software updates in order to accelerate the development of the project. In addition to completely overhauling the software that runs the testbed, we have completed several hardware upgrades, including the second and third deformable mirror, and the first custom Apodized Pupil Lyot Coronagraph (APLC) optimized for the HiCAT aperture, which is similar to one of the possible geometries considered for LUVOIR. The testbed also includes several external metrology features for rapid replacement of parts, and in particular the ability to test multiple apodizers readily, an active tip-tilt control system to compensate for local vibration and air turbulence in the enclosure. On the software and operations side, the software infrastructure enables 24/7 automated experiments that include routine calibration tasks and high-contrast experiments. In this communication we present an overview and status update of the project, both on the hardware and software side, and describe the results obtained with APLC wavefront control.

Proceedings Article | 1 September 2017 Paper

Segmented Aperture Interferometric Nulling Testbed (SAINT) II: component systems update

Brian Hicks, Matthew Bolcar, Michael Helmbrecht, Peter Petrone, Elliot Burke, James Corsetti, Thomas Dillon, Andrew Lea, Samuel Pellicori, Teresa Sheets, Ron Shiri, Jack Agolli, John DeVries, Andrew Eberhardt, Tyler McCabe

Proceedings Volume 10400, 104001I (2017) https://doi.org/10.1117/12.2273905

KEYWORDS: Interferometry, Imaging systems, Image segmentation, Segmented mirrors, Control systems, Space telescopes, Telescopes, Wavefronts, Nulling interferometry, Wavefront sensors

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Proceedings Article | 30 August 2017 Paper

Hemispherical optical dome for underwater communication

Ron Shiri, Emily Lunde, Patrick Coronado, Manuel Quijada

Proceedings Volume 10408, 1040810 (2017) https://doi.org/10.1117/12.2274100

KEYWORDS: Optical communications, Domes, Wireless communications, Spherical lenses, Optical components

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For many years, acoustic systems have been used as the primary method for underwater communication; however, the data transfer rate of such systems is low because sound propagates slowly through water. A higher throughput can be achieved using visible light to transmit data underwater. The first issue with this approach is that there is generally a large loss of the light signal due to scattering and absorption in water, even though there is an optimal wavelength for transmission in the blue or green wavelengths of the visible spectrum. The second issue is that a simple communication system, consisting only of a highly directional source/transmitter and small optical detector/receiver, has a very narrow field of view. The goal of this project is to improve an optical, underwater communication system by increasing the effective field of view of the receiving optics.

To this end, we make two changes to the simple system: (1) An optical dome was added near the receiver. An array of lenses is placed radially on the surface of the dome, reminiscent of the compound eye of an insect. The lenses make the source and detector planes conjugate, and each lens adds a new region of the source plane to the instrument's total field of view. (2) The receiver was expanded to include multiple photodiodes. With these two changes, the receiver has much more tolerance to misalignments (in position and angle) of the transmitter.

Two versions of the optical dome (with 6" and 8" diameters) were designed using PTC’s Creo CAD software and modeled using Synopsys' CODE V optical design software. A series of these transparent hemispherical domes, with both design diameters, were manufactured using a 5-axis mill. The prototype was then retrofitted with lenses and compared with the computer-generated model to demonstrate the effectiveness of this solution. This work shows that the dome design improves the optical field of view of the underwater communication system considerably. Furthermore, with the experimental test results, a geometric optimization model was derived providing insights to the design performance limits.

Proceedings Article | 27 September 2016 Paper

Cryogenic optical test planning using the Optical Telescope Element Simulator with the James Webb Space Telescope Integrated Science Instrument Module

Timothy Reichard, Nicholas Bond, Bradford Greeley, Eliot Malumuth, Marcio Melendez, Ron Shiri, Catarina Alves de Oliveira, Scott Antonille, Stephan Birkmann, Clinton Davis, William Dixon, André Martel, Cherie Miskey, Raymond Ohl, Derek Sabatke, Joseph Sullivan

Proceedings Volume 9951, 99510N (2016) https://doi.org/10.1117/12.2237006

KEYWORDS: James Webb Space Telescope, Cryogenics, Space telescopes, Optical testing, Optical components, Sensors, Signal attenuation, Lamps, Tungsten, Calibration

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Proceedings Article | 9 August 2016 Paper

Lenslet array to further suppress starlight for direct exoplanet detection

Qian Gong, Michael McElwain, Ron Shiri

Proceedings Volume 9904, 99043M (2016) https://doi.org/10.1117/12.2231993

KEYWORDS: Stars, Stars, Exoplanets, Wavefronts, Relays, Point spread functions, Coronagraphy, Sensors, Iterated function systems, Telescopes, Optical design

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Proceedings Article | 29 July 2016 Paper

The Segmented Aperture Interferometric Nulling Testbed (SAINT) I: overview and air-side system description

Brian Hicks, Richard Lyon, Peter Petrone, Marlin Ballard, Matthew Bolcar, Jeff Bolognese, Mark Clampin, Peter Dogoda, Daniel Dworzanski, Michael Helmbrecht, Corina Koca, Ron Shiri

Proceedings Volume 9904, 990420 (2016) https://doi.org/10.1117/12.2234313

KEYWORDS: Space telescopes, Interferometry, Telescopes, Mirrors, Coronagraphy, Image segmentation, Point spread functions, Exoplanets, Control systems, James Webb Space Telescope

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SPIE Journal Paper | 1 September 2013

Telescopes for space-based gravitational wave missions

Jeffrey Livas, Petar Arsenovic, John Crow, Peter Hill, Joseph Howard, Lenward Seals, Shahram Shiri

OE, Vol. 52, Issue 09, 091811, (September 2013) https://doi.org/10.1117/12.10.1117/1.OE.52.9.091811

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Proceedings Article | 10 November 2011 Paper

Alignment estimation and control of the James Webb Space Telescope mirrors using decomposition of an influence matrix

Shahram Shiri, Joseph Howard, David Aronstein

Proceedings Volume 8336, 83360T (2011) https://doi.org/10.1117/12.916794

KEYWORDS: Mirrors, James Webb Space Telescope, Space telescopes, Wavefronts, Observatories, Telescopes, Process control, Space mirrors, Point spread functions, Actuators

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Proceedings Article | 21 September 2011 Paper

Fabrication and test of an optical magnetic mirror

John Hagopian, Patrick Roman, Shahram Shiri, Edward Wollack, Madhumita Roy

Proceedings Volume 8096, 80963W (2011) https://doi.org/10.1117/12.903925

KEYWORDS: Mirrors, Magnetism, Diffraction, Dielectric polarization, Control systems, Semiconducting wafers, Dielectrics, Phase shifts, Nanostructures, Nanowires

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Proceedings Article | 31 August 2010 Paper

Multiwalled carbon nanotubes for stray light suppression in space flight instruments

John Hagopian, Stephanie Getty, Manuel Quijada, June Tveekrem, Ron Shiri, Patrick Roman, James Butler, Georgi Georgiev, Jeff Livas, Cleophus Hunt, Alejandro Maldonado, Saikat Talapatra, Xianfeng Zhang, Stergios Papadakis, Andrew Monica, David Deglau

Proceedings Volume 7761, 77610F (2010) https://doi.org/10.1117/12.864386

KEYWORDS: Stray light, Mirrors, Reflectivity, Carbon nanotubes, Silicon, Bidirectional reflectance transmission function, Aerospace engineering, Nanoimprint lithography, Stray light control, Light scattering

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Observations of the Earth are extremely challenging; its large angular extent floods scientific instruments with high flux within and adjacent to the desired field of view. This bright light diffracts from instrument structures, rattles around and invariably contaminates measurements. Astrophysical observations also are impacted by stray light that obscures very dim objects and degrades signal to noise in spectroscopic measurements. Stray light is controlled by utilizing low reflectance structural surface treatments and by using baffles and stops to limit this background noise. In 2007 GSFC researchers discovered that Multiwalled Carbon Nanotubes (MWCNTs) are exceptionally good absorbers, with potential to provide order-of-magnitude improvement over current surface treatments and a resulting factor of 10,000 reduction in stray light when applied to an entire optical train. Development of this technology will provide numerous benefits including: a.) simplification of instrument stray light controls to achieve equivalent performance, b.) increasing observational efficiencies by recovering currently unusable scenes in high contrast regions, and c.) enabling low-noise observations that are beyond current capabilities. Our objective was to develop and apply MWCNTs to instrument components to realize these benefits. We have addressed the technical challenges to advance the technology by tuning the MWCNT geometry using a variety of methods to provide a factor of 10 improvement over current surface treatments used in space flight hardware. Techniques are being developed to apply the optimized geometry to typical instrument components such as spiders, baffles and tubes. Application of the nanostructures to alternate materials (or by contact transfer) is also being investigated. In addition, candidate geometries have been tested and optimized for robustness to survive integration, testing, launch and operations associated with space flight hardware. The benefits of this technology extend to space science where observations of extremely dim objects require suppression of stray light.

Proceedings Article | 5 August 2010 Paper

An update on the role of systems modeling in the design and verification of the James Webb Space Telescope

Danniella Muheim, Michael Menzel, Gary Mosier, Joseph Howard, Sandra Irish, Peiman Maghami, Kimberly Mehalick, Keith Parrish, Joseph Pitman, Shaun Thomson, Charity Asuquo, Carl Blaurock, Cherie Congedo, Kong Ha, Norman Holmes, Frank Liu, Mark McGinnis, Stephen Mariconti, Christopher May, Blair Russell, James Sanders, Shahram Shiri, Jeffrey Smith, Dennis Skelton

Proceedings Volume 7738, 773814 (2010) https://doi.org/10.1117/12.856897

KEYWORDS: Systems modeling, James Webb Space Telescope, Observatories, Thermal modeling, Data modeling, Mathematical modeling, Solid modeling, Space telescopes, Performance modeling, Distortion

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Proceedings Article | 11 July 2008 Paper

Optical modeling activities for NASA's James Webb Space Telescope (JWST): Part V. Operational alignment updates

Joseph Howard, Kong Ha, Ron Shiri, J. Scott Smith, Gary Mosier, Danniella Muheim

Proceedings Volume 7017, 70170X (2008) https://doi.org/10.1117/12.790237

KEYWORDS: Wavefronts, James Webb Space Telescope, Point spread functions, Mirrors, Space telescopes, Wavefront sensors, Motion models, Observatories, Telescopes, Spatial frequencies

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Proceedings Article | 1 November 2007 Paper

Wavefront control toolbox for James Webb Space Telescope testbed

Ron Shiri, David Aronstein, Jeffery Smith, Bruce Dean, Erin Sabatke

Proceedings Volume 6711, 67110P (2007) https://doi.org/10.1117/12.736314

KEYWORDS: Mirrors, James Webb Space Telescope, Wavefronts, Image segmentation, Control systems, Detection and tracking algorithms, Telescopes, Space telescopes, Zemax, Interfaces

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Proceedings Article | 21 September 2007 Paper

A scanning Hartmann focus test for the EUVI telescopes aboard STEREO

R. Ohl, S. Antonille, D. Aronstein, B. Dean, M. Delmont, J. d'Entremont, W. Eichhorn, B. Frey, S. Hynes, D. Janssen, D. Kubalak, K. Redman, R. Shiri, J. Smith, P. Thompson, M. Wilson

Proceedings Volume 6676, 66760G (2007) https://doi.org/10.1117/12.734655

KEYWORDS: Collimators, Telescopes, Space telescopes, Mirrors, Error analysis, Sensors, Ultraviolet radiation, Eye, Interferometers, Mendelevium

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Proceedings Article | 20 September 2007 Paper

TRL-6 for JWST wavefront sensing and control

Lee Feinberg, Bruce Dean, David Aronstein, Charles Bowers, William Hayden, Richard Lyon, Ron Shiri, J. Scott Smith, D. Scott Acton, Larkin Carey, Adam Contos, Erin Sabatke, John Schwenker, Duncan Shields, Tim Towell, Fang Shi, Luis Meza

Proceedings Volume 6687, 668708 (2007) https://doi.org/10.1117/12.736059

KEYWORDS: Image segmentation, James Webb Space Telescope, Wavefronts, Phase retrieval, Mirrors, Telescopes, Wavefront sensors, Sensors, Cameras, Phase modulation

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Proceedings Article | 13 June 2006 Paper

Phase retrieval algorithm for JWST Flight and Testbed Telescope

Bruce Dean, David Aronstein, J. Scott Smith, Ron Shiri, D. Scott Acton

Proceedings Volume 6265, 626511 (2006) https://doi.org/10.1117/12.673569

KEYWORDS: James Webb Space Telescope, Phase retrieval, Wavefronts, Mirrors, Digital signal processing, Algorithm development, Image segmentation, Data modeling, Space telescopes, Telescopes

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Proceedings Article | 12 October 2004 Paper

A vector diffraction model of wave propagation in a coronagraphic terrestrial planet finder

Shahram Shiri, Richard Lyon, Robert Woodruff, Roman Antosik

Proceedings Volume 5487, (2004) https://doi.org/10.1117/12.552163

KEYWORDS: Coronagraphy, Diffraction, Planets, Wave propagation, Radio propagation, Chemical elements, 3D modeling, Finite element methods, Waveguides, Light

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Proceedings Article | 25 April 2000 Paper

Two-dimensional model of electromagnetic wave propagation in the volume holographic recording using photorefractive polymer

Shahram Shiri, Murray Loew, Richard Lyon, Wasyl Wasylkiwskyj

Proceedings Volume 3977, (2000) https://doi.org/10.1117/12.384547

KEYWORDS: Refraction, Photorefractive polymers, Radio propagation, Multiplexing, Wave propagation, Holography, Holograms, Polymers, Data storage, Refractive index

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Showing 5 of 26 publications

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