Sciences and Exploration Directorate

Michael Kenneth Barker

(Research AST, Planetary Studies)

Michael Kenneth Barker's Contact Card & Information.
Email: michael.k.barker@nasa.gov
Phone: 301.614.6897
Org Code: 698
Address:
NASA/GSFC
Mail Code 698
Greenbelt, MD 20771
Employer:
NASA

Current Projects


LRO-LOLA

Surface Properties

  • Developing new and improved maps of topography, hectometer-scale roughness, and permanently shadowed regions at the lunar poles to aid science and exploration.
  • Leading the calibration and analysis of LOLA 1064-nm passive radiometry for studying surface light-scattering properties.
  • Measuring geologic and space weathering effects on lunar surface roughness at sub-mm scales with very high phase-angle photometry obtained with LOLA at 532-nm.


Planetary Topography & Illumination

Mercury

  • Creating high-resolution shape models of Mercury polar craters with photoclinometry to study origin and evolution of water ice and other volatiles.


OSIRIS-REx

Asteroids

  • Studying surface light-scattering properties of asteroid Bennu as Co-I on OSIRIS-REx participating scientist proposal, "OSIRIS-REx Laser Altimeter 1064-nm Reflectance Investigation of Asteroid Bennu." 17-ORPSP17-0012. PI: G. A. Neumann.


Precision Safe Lunar Landing System Development

Remote Sensing

  • Space Technology Announcement of Collaboration Opportunity (80HQTR19SOA01)
  • Designed and implemented end-to-end performance simulations of hazard detection lidar under development at GSFC.


Game-Changing Development Program: LunaMaps

Remote Sensing

  • Creating ultra-clean high-resolution topographic maps of priority lunar south pole landing sites and applying new statistical techniques to estimate height errors and their impact on illumination conditions.

Positions/Employment


Research Space Scientist

NASA/GSFC - NASA/GSFC

January 2018 - Present

  • Created new and improved high-resolution LOLA elevation maps of south pole candidate landing sites for Artemis. Published results in Planetary & Space Science.
  • Planned and analyzed observations made for the LOLA search for lunar horizon glow. Published results in JGR: Planets.
  • Conducting data processing, data calibration & data analysis, and developing data protocols for passive radiometry collected by LOLA over the last 4 years composed of ~1.5 billion data points. This dataset is archived at the Planetary Data System, and is a new scientific resource for lunar surface characterization.
  • Studying surface photometric properties of asteroid Bennu as co-investigator on OSIRIS-REx participating scientist proposal, "OSIRIS-REx Laser Altimeter 1064-nm Reflectance Investigation of Asteroid Bennu." 17-ORPSP17-0012. Principal Investigator: G. A. Neumann.
  • Constructing high-resolution DEMs of Mercury polar craters to study origin and evolution of water ice and other volatiles (Code 698 Planetary Geodesy ISFM, Principal Investigator: E. Mazarico).
  • Designed and implemented end-to-end simulations of Europa lander hazard avoidance lidar for Phase A study in collaboration with Code 500 & 61A personnel.


Senior Scientist

Sigma Space Corporation - NASA/GSFC

July 2015 - January 2018

  • Directed the development of a new operation mode for LOLA that allows it to collect high-phase angle radiometry of the lunar surface. Such high-phase observations are of interest because they can place new constraints on the regolith reflectance behavior, which depends on grain & surface properties.
  • Led development of another new instrument operation mode enabling LOLA to search for scattered sunlight from dust above the lunar surface (lunar horizon glow) with the goal of constraining dust transport processes on the surface of the Moon. Worked with LRO mission operations team to plan and execute spacecraft slews to make necessary measurements. Conducting data analysis and presenting status reports at scientific conferences and LRO project team meetings.
  • Contributed to the development of sophisticated illumination modeling algorithms, particularly in the areas of light scattering and photometric behavior of the lunar surface. Leveraging these modeling tools to study surface-scattering of sunlight in the context of the lunar horizon glow search, which requires understanding and estimating potential light sources that could contribute to the measured signal.
  • Derived corrections to the LOLA pointing model from analysis of nearly 1 million altimetric crossovers resulting in ~20% higher measurement accuracy of LOLA bounce point geolocation. Maximizing the scientific return of planetary laser altimeters like LOLA requires accurate knowledge of the instrument pointing because residual errors in the laser boresight model can increase geolocation errors.
  • Assessed the LOLA instrument performance and pointing accuracy by analyzing in-orbit two-way laser ranging data between LOLA and the Goddard Geophysical and Astronomical Observatory. Reconstructed the spatial energy distribution in the LOLA laser far-field pattern. By comparing results obtained shortly after LRO launched and nearly 8 years later, this work has directly measured changes in the laser characteristics useful for understanding the long- term behavior of orbiting planetary altimeters.
  • Performed data processing, data calibration, data analysis, and developing data protocols for passive radiometry collected by LOLA over the last 4 years composed of ~800 million data points. This dataset will be archived at the Planetary Data System, and will form a new scientific resource for lunar surface characterization.
  • Disseminated science results through presentations at scientific conferences, such as American Geophysical Union (AGU) Fall Meeting, Lunar and Planetary Science Conference (LPSC), and team meetings (LRO Project Science Working Group, GRAIL/LOLA joint science team).
  • Applied state-of-the-art least squares fitting techniques to time-of-flight altimetric data collected by the Mercury Laser Altimeter (MLA) aboard the MESSENGER spacecraft to estimate important geophysical planetary properties of the terrestrial planet, Mercury. These properties (spin rate, spin axis orientation, and libration) are sensitive to its interior structure and evolution. Developed software to generate geophysically realistic test data and solve for rotational parameters.
  • Co-supervised college-level summer intern on 1-month project to derive digital elevation models of Mercury using the Ames Stereo Pipeline and images acquired with the Mercury Dual Imaging System aboard MESSENGER. The student presented her work as a poster at AGU.


Support Scientist Associate

Sigma Space Corporation - NASA/GSFC

July 2013 - July 2015

  • Applied advanced optimization algorithms and least-squares fitting methods to ~1 million altimetric crossovers from LOLA to measure the lunar body tide for the first time ever from orbit, resulting in co-authored peer-reviewed professional paper in Geophysical Research Letters. This measurement provides an additional constraint on geophysical models of the lunar interior.
  • Developed and calibrated a new instrument operation mode in which LOLA acts as a precise 4-pixel radiometer, extending LRO’s capabilities for multi- wavelength surface characterization. Processed first year of passive radiometry (200 million data points) and examined the phase function's dependence on geologic parameters. Published the results in peer-reviewed 2016 Icarus LRO Special Issue.
  • Demonstrated a new mode of instrument operation in which LRO orbit predictions and the LOLA lunar topographic model can be used to increase LOLA’s maximum range by up to ~20%. This mode can be exploited in the future as the LOLA laser energy declines and the maximum range at which it can detect the return pulses decreases.
  • Developed novel techniques for combining stereo imaging data with laser altimetry data to take advantage of their complementary strengths and weaknesses. Co-registered 43,200 stereo-derived topography models from the Japanese SELENE Terrain Camera with 4.5 billion topographic heights from the LOLA dataset yielding an improved, publicly-available, lunar topography model, called SLDEM2015. Increased the number of vertical residuals less than 5 m from 50% before co-registration to 90% after co-registration. Published the results in 2016 Icarus LRO Special Issue.
  • The LOLA data processing pipeline occasionally misclassifies spurious noise returns as valid. Wrote a software program to automatically edit LOLA topographic profiles using the SLDEM2015 resulting in the recovery of ~7.5 million valid ground returns and the removal of ~75,000 invalid returns.


Data Analyst Associate

Sigma Space Corporation - NASA/GSFC

April 2011 - July 2013

  • Improved the scientific value of the LOLA dataset by scheduling daily LOLA slews to fill gaps in surface coverage resulting in a 60% decrease in the number of gaps over 3.5 kilometers wide. Filling gaps in surface coverage improves the co-registration of laser altimetry and stereo imagery.
  • Constructed topographic slope and roughness maps from LOLA altimetry, which were archived and distributed to the scientific community on the Planetary Data System Geosciences node website. These maps assist planetary researchers in geophysical studies of the lunar surface.
  • Derived an improved range bias correction for one-way laser ranging data that resulted in smaller residuals between the predicted and actual pulse receive times. This dataset allowed the laser ranging investigation of LRO/LOLA to demonstrate that one-way time-of-flight measurements of laser pulses from Earth-based ground stations to LRO can improve the accuracy of spacecraft orbit reconstruction.


Postdoctoral Research Fellow

University of Edinburgh - Edinburgh, U.K.

January 2008 - December 2010

  • Conducted a wide-field survey of the galaxy NGC 2403 using images obtained with the Subaru telescope. Applied state-of-the-art point spread function fitting software to the images providing an extensive catalog of colors and brightnesses of stars in this galaxy. Compared the spatial distribution of stars with galactic structural models to prove the existence of a faint, extended structural component. Published a paper on this work in Monthly Notices of the Royal Astronomical Society.
  • Exploited the unique capabilities of the Hubble Space Telescope Advanced Camera for Surveys to study the ages and chemical compositions of two fields in the far outer disk of spiral galaxy M33. Applied sophisticated statistical tests and optimization methods to the colors and brightnesses of individual stars to derive the star formation history. Reviewed and assimilated literature to aid in data analysis and interpretation of results, which offer one of the most detailed views of the peripheral regions of any disk galaxy. Published a paper on this work in Monthly Notices of the Royal Astronomical Society. Gave an invited seminar at Liverpool John Moores University.
  • Conceived of project and directed college student during 8-week Senior Honors Thesis culminating in written report and poster presentation given by the student.

Education


  • Ph.D. in Astronomy, 12/2007, Univ. of Florida, Gainesville, FL
  • Master's in Astronomy, 6/2003, Univ. of Florida, Gainesville, FL
  • B.S. in Astronomy & Physics, 6/2001, Univ. of Maryland, College Park, MD

Professional Societies


American Geophysical Union

2012 - Present

Awards


  • 2018 Early Career Public Achievement Medal (Code 600 Agency Honor Awards)
  • 2016 NASA/GSFC Solar System Exploration Division Peer Award for exceptional dedication and outstanding contributions to the Division and its members.
  • 2016 Sigma Space Corporation Certificate of Recognition for scientific contributions in support of Planetary Science and the Geodesy, Geodynamics and Space Geodesy goals.

Other Professional Information


Computer skills:

MATLAB, Generic Mapping Tools (GMT), NAIF SPICE, Ames Stereo Pipeline, SLURM, MacOS X, Linux, BASH, Fortran, C++, Python

Publications


Refereed

2023. "A New View of the Lunar South Pole from the Lunar Orbiter Laser Altimeter (LOLA)." The Planetary Science Journal 4 (9): 183 [10.3847/psj/acf3e1] [Journal Article/Letter]

2023. "Overview of the search for signs of space weathering on the low-albedo asteroid (101955) Bennu." Icarus 115563 [10.1016/j.icarus.2023.115563] [Journal Article/Letter]

2023. "Investigating the Stability and Distribution of Surface Ice in Mercury's Northernmost Craters." The Planetary Science Journal 4 107 [Full Text] [10.3847/PSJ/acd68d] [Journal Article/Letter]

2023. "Highly resolved topography and illumination at Mercury’s South Pole from MESSENGER MDIS-NAC." The Planetary Science Journal 4 (21): [Full Text] [10.3847/PSJ/acaddb] [Journal Article/Letter]

2022. "Sunlit Pathways between South Pole Sites of Interest for Lunar Exploration." Acta Astronautica [Full Text] [10.1016/j.actaastro.2022.12.023] [Journal Article/Letter]

2022. "New Constraints on the Volatile Deposit in Mercury’s North Polar Crater, Prokofiev." The Planetary Science Journal 3 (8): 188 [10.3847/psj/ac7d5a] [Journal Article/Letter]

2021. "Volatile interactions with the lunar surface." Geochemistry 125858 [10.1016/j.chemer.2021.125858] [Journal Article/Letter]

2021. "Improved LOLA Elevation Maps for South Pole Landing Sites: Error Estimates and Their Impact on Illumination Conditions." Planetary and Space Science 203 105119 [Full Text] [10.1016/j.pss.2020.105119] [Journal Article/Letter]

2021. "Deriving Mercury geodetic parameters with altimetric crossovers from the Mercury Laser Altimeter (MLA)." Journal of Geophysical Research - Planets 126 (4): e2020JE006683 [Full Text] [10.1029/2020JE006683] [Journal Article/Letter]

2020. "New Illumination and Temperature Constraints of Mercury’s Volatile Polar Deposits." The Planetary Science Journal 1 (3): 57 [10.3847/psj/abb1c2] [Journal Article/Letter]

2020. "First Two-way Laser Ranging to a Lunar Orbiter: infrared observations from the Grasse station to LRO’s retro-reflector array ." Earth, Planets and Space [Full Text] [10.1186/s40623-020-01243-w] [Journal Article/Letter]

2020. "Moonba, a Micro-Rover for a Targeted Investigation of Lunar Surface Dust." Lunar Surface Science Workshop (LPI Contrib No. 2241) id. 5092 [Proceedings]

2020. "The CORGIE (Confirming Orbital Remote-Sensing with Ground Information Experiments) Consortium." Lunar Surface Science Workshop 2020 (LPI Contrib. no 2241) [Proceedings]

2020. "Ground and In‐Flight Calibration of the OSIRIS‐REx Camera Suite." Space Science Reviews 216 (12): [Full Text] [10.1007/s11214-019-0626-6] [Journal Article/Letter]

2019. "Searching for lunar horizon glow with the Lunar Orbiter Laser Altimeter." Journal of Geophysical Research - Planets [10.1029/2019JE006020] [Journal Article/Letter]

2018. "Advanced Illumination Modeling for Data Analysis and Calibration. Application to the Moon." Advances in Space Research 62 (11): 3214-3228 [Full Text] [10.1016/j.asr.2018.08.022] [Journal Article/Letter]

2018. "Orbit determination of the Lunar Reconnaissance Orbiter: Status after Seven Years." Planetary and Space Science 162 2-19 [Full Text] [10.1016/j.pss.2017.10.004] [Journal Article/Letter]

2018. "In-flight characterization of the lunar orbiter laser altimeter instrument pointing and far-field pattern." Applied Optics 57 (27): 7702 [10.1364/ao.57.007702] [Journal Article/Letter]

2017. "The Laser Ranging Experiment of the Lunar Reconnaissance Orbiter: Five Years of Operations and Data Analysis." Icarus 283 55-69 [10.1016/j.icarus.2016.07.003] [Journal Article/Letter]

2017. "Summary of the Results from the Lunar Orbiter Laser Altimeter after Seven Years in Lunar Orbit." Icarus 283 70-91 [10.1016/j.icarus.2016.06.006] [Journal Article/Letter]

2016. "Improved calibration of reflectance data from the LRO Lunar Orbiter Laser Altimeter (LOLA) and implications for space weathering." Icarus 273 315-328 [10.1016/j.icarus.2016.02.006] [Journal Article/Letter]

2016. "Lunar phase function at 1064 nm from Lunar Orbiter Laser Altimeter passive and active radiometry." Icarus 273 96–113 [10.1016/j.icarus.2016.02.008] [Journal Article/Letter]

2016. "A New Lunar Digital Elevation Model From the Lunar Orbiter Laser Altimeter and SELENE Terrain Camera." Icarus 273 346–355 [10.1016/j.icarus.2015.07.039] [Journal Article/Letter]

2014. "Detection of the lunar body tide by the Lunar Orbiter Laser Altimeter." Geophysical Research Letters 41 (7): 2282-2288 [Full Text] [10.1002/2013GL059085] [Journal Article/Letter]

2011. "Quantifying the faint structure of galaxies: the late-type spiral NGC 2403." Monthly Notices of the Royal Astronomical Society 419 (2): 1489-1506 [10.1111/j.1365-2966.2011.19814.x] [Journal Article/Letter]

2009. "RESOLVING THE STELLAR OUTSKIRTS OF M81: EVIDENCE FOR A FAINT, EXTENDED STRUCTURAL COMPONENT." The Astronomical Journal 138 (5): 1469-1484 [10.1088/0004-6256/138/5/1469] [Journal Article/Letter]

2008. "The stellar populations of M33's outer regions - IV. Inflow history and chemical evolution." Monthly Notices of the Royal Astronomical Society 390 (2): 863-880 [10.1111/j.1365-2966.2008.13816.x] [Journal Article/Letter]

2007. "The Stellar Populations in the Outer Regions of M33. II. Deep ACS Imaging." The Astronomical Journal 133 (3): 1125-1137 [10.1086/511185] [Journal Article/Letter]

2007. "The Stellar Populations in the Outer Regions of M33. III. Star Formation History." The Astronomical Journal 133 (3): 1138-1160 [10.1086/511186] [Journal Article/Letter]

2003. "A Limit on the Cosmological Mass Density and Power Spectrum from the Rotation Curves of Low Surface Brightness Galaxies." The Astrophysical Journal 584 (2): 566-576 [10.1086/345806] [Journal Article/Letter]

2002. "The Cosmic Radio and Infrared Backgrounds Connection." The Astrophysical Journal 575 7 [Full Text] [10.1086/341143] [Journal Article/Letter]

Non-Refereed

2016. "The Contributions of ILRS Laser Ranging to the Lunar Reconnaissance Orbiter Mission." 20th International Workshop on Laser Ranging, Potsdam Germany, October 9-14, 2016 [Full Text] [Proceedings]

Talks, Presentations and Posters


Other

The South Polar Region as Seen by the Lunar Orbiter Laser Altimeter (LOLA)

May 4, 2023

The First Steps in a Bold New Era of Human Discovery: Candidate Artemis III Landing Sites

A Lunar Surface Science Workshop



A New Look at the Topography of the Lunar South Pole with LOLA

April 15, 2023

The 54th Lunar and Planetary Science Conference (LPSC), id. 1532


New Constraints on the Volatile Deposit in Mercury's North Polar Crater, Prokofiev

April 10, 2022

53rd Lunar and Planetary Science Conference, held 7-11 March, 2022 at The Woodlands, Texas. LPI Contribution No. 2678, 2022, id.2012


New Constraints on Prokofiev’s Volatile Deposit

March 3, 2022

Mercury Exploration Assessment Group Annual Meeting, Virtual


New High Resolution Polar Topographic Products From The Lunar Orbiter Laser Altimeter (LOLA)

17, 2021

AGU Fall Meeting 2021, held in New Orleans, LA, 13-17 December 2021, id. P55E-1999


Measuring Photometric Surface Roughness with the Lunar Orbiter Laser Altimeter (LOLA)

April 15, 2021

52nd Lunar and Planetary Science Conference, held virtually, 15-19 March, 2021. LPI Contribution No. 2548, id.1369


Photometric Modeling of Bennu at 1064-nm with the OLA Normal Albedo

12, 2020

American Geophysical Union, Fall Meeting 2020, abstract #P034-0003


New High Resolution Polar Topographic Products from the Lunar Orbiter Laser Altimeter (LOLA)

April 16, 2020

51st Lunar and Planetary Science Conference, held 16-20 March, 2020 at The Woodlands, Texas. LPI Contribution No. 2326, 2020, id.1730


Photometric Properties of the Moon with the Lunar Orbiter Laser Altimeter (LOLA)

April 18, 2019

50th Lunar and Planetary Science Conference, held 18-22 March, 2019 at The Woodlands, Texas. LPI Contribution No. 2132, id.2598


Searching for Lunar Horizon Glow with the Lunar Orbiter Laser Altimeter (LOLA)

April 19, 2018

49th Lunar and Planetary Science Conference 19-23 March, 2018, held at The Woodlands, Texas LPI Contribution No. 2083, id.1258


Searching for Lunar Horizon Glow with the Lunar Orbiter Laser Altimeter

February 11, 2017

Dust, Atmosphere and Plasma Environment of the Moon and Small Bodies 2017 (DAP-2017)


Planetary Dynamics From Laser Altimetry: Spin and Tidal Deformation of the Moon and Mercury

15, 2016

American Geophysical Union, Fall General Assembly 2016, abstract id. DI41A-2617


Mapping the Lunar Phase Function in the Near-Infrared with the Lunar Orbiter Laser Altimeter

April 2016

47th Lunar and Planetary Science Conference, held March 21-25, 2016 at The Woodlands, Texas. LPI Contribution No. 1903, p.1999


Merging Digital Elevation Models from the Lunar Orbiter Laser Altimeter and Kaguya Terrain Camera

April 2014

45th Lunar and Planetary Science Conference, held 17-21 March, 2014 at The Woodlands, Texas. LPI Contribution No. 1777, p.1635

Selected Public Outreach


Educating the educators.

2013 - 2014

Gave presentations on lunar science and LRO/LOLA to over 100 primary and secondary school teachers.