Dr. Michael P. Chrisp Profile

Dr. Michael P. Chrisp

at MIT Lincoln Lab

SPIE Involvement:

Author

Publications (25)

Proceedings Article | 3 October 2024 Presentation + Paper

Adjacency effects on hyperspectral SWIR methane detection

M. Pieper, R. Lockwood, M. Chrisp

Proceedings Volume 13145, 1314502 (2024) https://doi.org/10.1117/12.3027973

KEYWORDS: Reflectivity, Visibility, Methane, Sensors, Atmospheric modeling, Short wave infrared radiation, Absorption, Spectrometers, Oxygen, Scattering

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Proceedings Article | 3 October 2024 Presentation + Paper

Wildfire detection employing an imaging spectrometer with a digital focal plane array

Ronald Lockwood, Michael Griffin, Kevin Ryu, Michael Pieper, Michael Chrisp, James Johnson, Corrie Smeaton, Jade Wang

Proceedings Volume 13144, 1314409 (2024) https://doi.org/10.1117/12.3028175

KEYWORDS: Aerosols, Forest fires, Fire, Atmospheric modeling, Staring arrays, Signal to noise ratio, Spectroscopy, Indium gallium arsenide, Sensors, Electrons

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Proceedings Article | 10 June 2024 Presentation

Folded path reflective telescope for SWAP limited imaging

James Johnson, Robert Martinez, Christopher Roll, Benjamin Cohen, Gary Swanson, Michael Chrisp

Proceedings Volume PC13042, PC1304202 (2024) https://doi.org/10.1117/12.3013885

KEYWORDS: Telescopes, Reflector telescopes, Satellites, Prototyping, Reflection, Optical instrument design, Optical design, Mirrors, Mirror surfaces, Image quality

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Proceedings Article | 7 June 2024 Presentation + Paper

Development and testing of a ruggedized compact VNIR-SWIR hyperspectral imager for remote sensing

James Johnson, Christopher Roll, Bayleigh Nugent, Jenna Montague, Jeromy Lyman, Samuel Berger, Melissa Brennan, Ronald Lockwood, Michael Chrisp, Corrie Smeaton

Proceedings Volume 13042, 1304209 (2024) https://doi.org/10.1117/12.3013690

KEYWORDS: Design, Hyperspectral imaging, Vibration, Thermal modeling, Stray light, Remote sensing

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Proceedings Article | 20 October 2023 Presentation + Paper

Hyperspectral SWIR sensor parameterization for optimal methane detection

M. Pieper, R. Lockwood, M. Chrisp

Proceedings Volume 12688, 126880F (2023) https://doi.org/10.1117/12.2676133

KEYWORDS: Methane, Sensors, Reflectivity, Atmospheres, Signal to noise ratio, Absorption, Atmospheric modeling, Short wave infrared radiation, Spectral resolution, Spectroscopy

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Proceedings Article | 20 October 2023 Presentation + Paper

Aquatic ecosystems science using an imaging spectrometer

Ronald Lockwood, Charles Bachmann, Michael Chrisp, Corrie Smeaton, Nima Pahlaven, Eric Hochberg, Marcos Montes, Bo-Cai Gao, Robert Frouin, Anthony Vodacek, Cedric Fichot, Tom Bell, Roy Armstrong, Chunyan Li, Laura Kennedy, Steven Gillmer, Linda Fuhrman, Derrick Brouhard, Jade Wang, Kurtis Thome

Proceedings Volume 12688, 126880D (2023) https://doi.org/10.1117/12.2676124

KEYWORDS: Signal to noise ratio, Ecosystems, Spectroscopy, Imaging systems, Carbon, Water, Hyperspectral imaging, Reflectivity, Short wave infrared radiation, Ocean optics

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SPIE Journal Paper | 19 November 2019 Open Access

Design, simulation, and fabrication of three-dimensional microsystem components using grayscale photolithography

Melissa Smith, Shaun Berry, Lalitha Parameswaran, Christopher Holtsberg, Noah Siegel, Ronald Lockwood, Michael Chrisp, Daniel Freeman, Mordechai Rothschild

JM3, Vol. 18, Issue 04, 043507, (November 2019) https://doi.org/10.1117/12.10.1117/1.JMM.18.4.043507

KEYWORDS: Photomasks, Optical lithography, Etching, Microsystems, Grayscale lithography, Device simulation, Photoresist processing, Photoresist materials, Liquids, Lithography

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Proceedings Article | 23 October 2018 Paper

A novel imaging spectrometer form for the solar reflective spectral range for size, weight, and power limited applications

Michael Chrisp, Ronald Lockwood, Melissa Smith, Christopher Holtsberg, Gregory Balonek, Kurtis Thome, Sachidananda Babu, Parminder Ghuman

Proceedings Volume 10780, 107800L (2018) https://doi.org/10.1117/12.2324453

KEYWORDS: Spectroscopy, Reflectivity, Optics manufacturing, Optical lithography, Optical design, Mirrors, Manufacturing, Staring arrays, Signal to noise ratio, Lithography

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Proceedings Article | 27 November 2017 Paper

Wide angle reflective telescopes with NURBS freeform surfaces

Michael Chrisp

Proceedings Volume 10590, 1059011 (2017) https://doi.org/10.1117/12.2304293

KEYWORDS: Telescopes, Mirrors, Aspheric lenses, Optical instrument design, Reflectivity, Sensors, Reflector telescopes, Spatial resolution, Optical design, Telescope design

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Proceedings Article | 22 August 2017 Presentation + Paper

Assembly, alignment and test of the Transiting Exoplanet Survey Satellite (TESS) optical assemblies

Gregory Balonek, Joshua Brown, James Andre, Christian Chesbrough, Michael Chrisp, Michael Dalpiaz, Joseph Lennon, B. Richards, Kristin Clark

Proceedings Volume 10377, 103770J (2017) https://doi.org/10.1117/12.2275882

KEYWORDS: Optical fabrication, Assembly tolerances, Optical alignment, Exoplanets, Satellites, Sensors, Optical design, Space telescopes, Telescopes, Cameras

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Proceedings Article | 27 September 2016 Presentation + Paper

Tolerancing, alignment and test of the Transiting Exoplanet Survey Satellite (TESS) optical assembly

Brian Primeau, Gregory Balonek, Robert MacDonald, Michael Chrisp, Christian Chesbrough, James Andre, Kristin Clark

Proceedings Volume 9951, 995103 (2016) https://doi.org/10.1117/12.2235924

KEYWORDS: Optical alignment, Optical fabrication, Tolerancing, Assembly tolerances, Lenses, Interferometry, Sensors, Cryogenics, Aspheric lenses, Wavefronts

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SPIE Journal Paper | 1 August 2016 Open Access

Imaging freeform optical systems designed with NURBS surfaces

Michael Chrisp, Brian Primeau, Michael Echter

OE, Vol. 55, Issue 07, 071208, (August 2016) https://doi.org/10.1117/12.10.1117/1.OE.55.7.071208

KEYWORDS: Mirrors, Optical design, Aspheric lenses, Imaging systems, Telescopes, Optical instrument design, Optical imaging, Spectroscopy, Modulation transfer functions, Optical engineering

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Proceedings Article | 29 July 2016 Paper

The TESS camera: modeling and measurements with deep depletion devices

Deborah Woods, Roland Vanderspek, Robert MacDonald, Edward Morgan, Joel Villasenor, Carolyn Thayer, Barry Burke, Christian Chesbrough, Michael Chrisp, Kristin Clark, Gabor Furesz, Alexandria Gonzales, Tam Nguyen, Gregory Prigozhin, Brian Primeau, George Ricker, Timothy Sauerwein, Vyshnavi Suntharalingam

Proceedings Volume 9904, 99042C (2016) https://doi.org/10.1117/12.2231296

KEYWORDS: Instrument modeling, Zemax, Sensors, Cameras, Monte Carlo methods, Silicon, Zemax, Charge-coupled devices, Photons, Diffusion, Point spread functions

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Proceedings Article | 22 September 2015 Paper

Optical design of the camera for Transiting Exoplanet Survey Satellite (TESS)

Michael Chrisp, Kristin Clark, Brian Primeau, Michael Dalpiaz, Joseph Lennon

Proceedings Volume 9602, 96020C (2015) https://doi.org/10.1117/12.2188005

KEYWORDS: Cameras, Aspheric lenses, Coating, Optical design, Optical filters, Stray light, Prototyping, Lens design, Sensors, Satellites

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Proceedings Article | 17 December 2014 Paper

New freeform NURBS imaging design code

Michael Chrisp

Proceedings Volume 9293, 92930N (2014) https://doi.org/10.1117/12.2073081

KEYWORDS: Mirrors, Aspheric lenses, Optical design, Optimization (mathematics), Clouds, Visualization, Detector arrays, Imaging systems, Prototyping, Optical imaging

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Proceedings Article | 5 March 2003 Paper

Image quality for large segmented space telescopes

Paul Lightsey, Michael Chrisp

Proceedings Volume 4850, (2003) https://doi.org/10.1117/12.461220

KEYWORDS: Point spread functions, Image quality, Image segmentation, Diffraction, Space telescopes, Mirrors, Spatial frequencies, Wavefronts, Optical transfer functions, Phase modulation

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Proceedings Article | 24 September 2002 Paper

Limb broadband imaging spectrometer for the NPOESS Ozone Mapping and Profiler Suite (OMPS)

Michael Dittman, James Leitch, Michael Chrisp, Juan Rodriguez, Angela Sparks, Brian McComas, Neal Zaun, Doug Frazier, Tom Dixon, Robert Philbrick, Debra Wasinger

Proceedings Volume 4814, (2002) https://doi.org/10.1117/12.453751

KEYWORDS: Sensors, Telescopes, Charge-coupled devices, Ozone, Spectroscopy, Ultraviolet radiation, Calibration, CCD image sensors, Stray light, Space telescopes

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Proceedings Article | 24 September 2002 Paper

Nadir ultraviolet imaging spectrometer for the NPOESS Ozone Mapping and Profiler Suite (OMPS)

Michael Dittman, Eric Ramberg, Michael Chrisp, Juan Rodriguez, Angela Sparks, Neal Zaun, Paul Hendershot, Tom Dixon, Robert Philbrick, Debra Wasinger

Proceedings Volume 4814, (2002) https://doi.org/10.1117/12.453748

KEYWORDS: Spectroscopy, Sensors, Ozone, Telescopes, Charge-coupled devices, Calibration, Ultraviolet radiation, Space telescopes, Diffusers, Aerospace engineering

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Proceedings Article | 5 October 1999 Paper

Optical design of the Next-Generation Sky Survey (NGSS) telescope

Michael Chrisp

Proceedings Volume 3779, (1999) https://doi.org/10.1117/12.368199

KEYWORDS: Telescopes, Mirrors, Space telescopes, Optical design, Cameras, Sensors, Cryogenics, Optical instrument design, Diffraction, Detector arrays

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Proceedings Article | 28 October 1996 Paper

Kuiper Express: a sciencecraft

David Rodgers, Leon Alkalai, Patricia Beauchamp, Gun-Shing Chen, Michael Chrisp, Robert Brown, J. Davidson, Douglas Huxtable, P. Penzo, Stanley Petrick, Laurence Soderblom, Alan Stewart, Gregg Vane, Roger Yelle

Proceedings Volume 2810, (1996) https://doi.org/10.1117/12.255126

KEYWORDS: Neptune, Uranus, Solar system, Sun, Sensors, Comets, Planets, Antennas, Telecommunications, Solar energy

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The Kuiper Express is a mission to achieve the first reconnaissance of one of the primitive objects that reside in the Kuiper Belt. The objects in the Kuiper Belt are the remnants of the planetesimal swarm that formed the four giant planets of the outer Solar System. These objects, because they are far from the Sun, have not been processed by solar heating and are essentially in their primordial state. This makes them unique objects and their study will provide information on the composition of the solar nebula that cannot be extracted from a study of other objects in the Solar System. The Kuiper Express is a sciencecraft mission. A sciencecraft is an integrated unit that combines into a single system the essential elements (but no more) necessary to achieve the science objectives of the mission, including science instruments, electronics, telecommunications, power, and propulsion. The design of a sciencecraft begins with the definition of mission science objectives and cost constraint. An observational sequence and sensor subsystem are then designed. This sensor subsystem in turn becomes the design driver for the sciencecraft architecture and hardware subsystems needed to deliver the sensor to its target and return the science data to the earth. Throughout the design process, shared functionality, shared redundancy, and reduced cost are strongly emphasized. The Kuiper Express will be launched using a Delta vehicle and will use solar electric propulsion to add velocity and shape its trajectory in the inner Solar System, executing two earth gravity-assist flybys. It will also execute flybys of main belt asteroids, Mars, Uranus, and Neptune/Triton en route to its target in the Kuiper belt, where it will arrive about ten years after launch. It will use no nuclear power. The surface constituents and morphology of the objects visited will be measured and their atmospheres will be characterized. The cost of the detailed design, fabrication, and launch of the Kuiper Express is consistent with the $150M limit set by the NASA Discovery Program.

Proceedings Article | 28 October 1996 Paper

Sciencecraft process

Patricia Beauchamp, Leon Alkalai, Robert Brown, Richard Capps, Gun-Shing Chen, Michael Chrisp, James Cutts, J. Davidson, Stanley Petrick, David Rodgers, Gregg Vane, Laurence Soderblom, Roger Yelle

Proceedings Volume 2810, (1996) https://doi.org/10.1117/12.255135

KEYWORDS: Sensors, Space operations, Photonic integrated circuits, Solar system, Electronics, System integration, Spectroscopy, Solar energy, Cameras, Integration

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In this paper, the authors propose a new process for the development and operation of unmanned vehicles for the exploration of space. We call the vehicle (and the process used to create it) sciencecraft. A Sciencecraft is an integrated unit that combines into a single system those elements (but no more) which are necessary to achieve the science objectives of the mission, including science instruments, electronics, telecommunications, power, and propulsion. the design of a sciencecraft begins with the definition of the mission science objectives. This is followed by the establishment of measurement goals and the definition of a critical data set. Next an observational sequence is developed, which will provide the data set. This step is followed by the design of the integrated sensor system that will make the observations. The final step in the development of a sciencecraft is the design of the hardware subsystems needed to deliver the sensor to its target and return the science data to the earth. This approach assures that the sciencecraft hardware design and overall architecture will be driven by the science objectives and the sensor requirements rather than the reverse, as has historically been the case. Throughout the design process, there is an emphasis on shared functionality, shared redundancy, and reduced cost. We illustrate the power of the sciencecraft approach by describing the Planetary Integrated Camera Spectrometer (PICS), an integrated sensor system in which the 'sciencecraft' process has been applied to the development of a single subsystem, which integrates multiple functionalities. PICS is a case-in-point where the sciencecraft process has been successfully demonstrated. We then describe a sciencecraft mission for exploration of the outer Solar System, including flybys of Uranus, Neptune, and an object in the Kuiper Belt. This mission, called the Kuiper Express, will use solar electric propulsion to shape its trajectory in the inner solar system and will use no nuclear power. The Kuiper Express is an example of how the sciencecraft approach can return 'voyager class science at ten cents on the dollar.'

Proceedings Article | 27 June 1996 Paper

Planetary Integrated Camera Spectrometer (PICS): a new approach to developing a self-sequencing, integrated, multiwavelength instrument

Patricia Beauchamp, Robert Benoit, Robert Brown, Carl Bruce, Gun-Shing Chen, Michael Chrisp, J. Davidson, George Fraschetti, Stanley Petrick, David Rodgers, Bill Sandel, Cesar Sepulveda, Laurence Soderblom, Dexter Wang, Stanley Soll, Roger Yelle

Proceedings Volume 2744, (1996) https://doi.org/10.1117/12.243513

KEYWORDS: Photonic integrated circuits, Spectroscopy, Sensors, Ultraviolet radiation, Mirrors, Electronics, Silicon carbide, Infrared spectroscopy, Telescopes, Cameras

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Proceedings Article | 8 June 1994 Paper

Pluto integrated camera spectrometer (PICS) instrument

Patricia Beauchamp, Robert Brown, Carl Bruce, Gun-Shing Chen, Michael Chrisp, George Fraschetti, Timothy Krabach, Stanley Petrick, David Rodgers, J. Rodriguez, Stanley Soll, Arthur Vaughan, Laurence Soderblom, Bill Sandel, Roger Yelle

Proceedings Volume 2214, (1994) https://doi.org/10.1117/12.177666

KEYWORDS: Spectroscopy, Photonic integrated circuits, Electronics, Ultraviolet radiation, Sensors, Pluto, Cameras, Mirrors, Telescopes, Infrared spectroscopy

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Proceedings Article | 16 November 1992 Paper

Optical instruments for remote sensing from space

Michael Chrisp

Proceedings Volume 10269, 102690E (1992) https://doi.org/10.1117/12.161577

KEYWORDS: Optical components, Remote sensing, Aerospace engineering, Multispectral imaging, Spectrometers, Optical design, Passive remote sensing, Cameras

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