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Amy Mainzer

Amy Mainzer is an astronomer specializing in astronomy, astrophysical , and planetary , renowned for her role as of NASA's NEOWISE mission, which made over 1.45 million measurements of more than 44,000 solar system objects, including over 3,000 near-Earth objects, from 2010 until its conclusion in 2024, and as the lead for the space telescope mission aimed at enhancing detection of potentially hazardous solar system bodies. Mainzer earned a B.S. in physics with honors from in 1996, followed by an M.S. in astronomy from the in 2000 and a Ph.D. in astronomy from the (UCLA) in 2003. After completing her undergraduate studies, she worked as an engineer at Advanced Technology Center before pursuing graduate research on space-based observatories, including contributions to the during her time at Caltech. Joining NASA's (JPL) in 2003 as a research scientist, Mainzer advanced to senior research scientist and served as deputy project scientist for the () mission, launched in , which surveyed the entire sky in wavelengths to uncover cool and dim objects like asteroids and . Under her leadership as starting in 2011, the NEOWISE reactivation focused on detection, amassing data on more than 44,000 solar system objects and enabling the discovery of over 200 new near-Earth objects, including dozens of potentially hazardous asteroids. The NEOWISE mission concluded in July 2024 after more than 14 years of operations. In 2019, Mainzer joined the University of Arizona's Lunar and Planetary Laboratory as a professor, continuing her work on infrared surveys and . By 2023, she transitioned to a professorship in the Department of Earth, Planetary, and Space Sciences at the (UCLA), where she leads the team for , an infrared observatory scheduled for launch no earlier than late 2027 to improve NASA's planetary defense capabilities by contributing to the goal of detecting 90% of near-Earth objects larger than 140 meters, finding at least two-thirds of the undiscovered population. Her contributions extend to public outreach and interdisciplinary efforts; she served as a science consultant for the 2021 film , ensuring accurate depictions of asteroid impact scenarios, and has advocated for increased funding in amid budget challenges. In recognition of her impactful research on small body science and , Mainzer was elected a Fellow of the in 2025.

Early Life and Education

Early Life

Amy Mainzer was born on January 2, 1974, in . Growing up in during her childhood, Mainzer displayed a strong curiosity for the natural world, enjoying outdoor exploration and collecting items like bugs, rocks, plants, and birds. At around age six or seven, her interest in astronomy was sparked when she encountered a picture of the in an at the library, connecting it to the constellation from a book she had read. These early encounters with cosmic imagery and mythological stories fueled her fascination with the universe, setting the stage for her later academic pursuits in the field.

Education

Amy Mainzer earned a degree in physics from in 1996, graduating with honors. After completing her undergraduate studies, she worked as an engineer at the Advanced Technology Center before returning to academia for graduate training in astronomy. She received a degree in astronomy from the in 2000. Mainzer then pursued her doctoral studies at the University of California, Los Angeles, where she earned a Ph.D. in astronomy in 2003 under the supervision of Professor Ian McLean. Her dissertation centered on the development and characterization of the First Light Infrared Test and Evaluation Camera (FLITECAM), a near-infrared camera and spectrometer designed for NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA). As FLITECAM's first graduate student at the UCLA Infrared Laboratory, Mainzer played a key role in assembling its optics and achieving first light observations at Lick Observatory in 2002, advancing techniques in infrared astrophysical instrumentation during her time there.

Career

NASA and JPL Roles

Amy Mainzer joined NASA's Jet Propulsion Laboratory (JPL) in 2003 following the completion of her Ph.D. in astronomy and astrophysics from the University of Arizona. At JPL, she initially served as the principal investigator for a pointing calibration and reference sensor instrument developed for the Spitzer Space Telescope, contributing to the mission's precise alignment and observational capabilities during its primary operations from 2004 to 2009. Mainzer advanced to the role of deputy project scientist for the (WISE) mission, an all-sky infrared survey telescope launched by in December 2009. In this capacity, she supported mission planning, data analysis strategies, and scientific oversight, helping to enable WISE's detection of millions of celestial objects during its primary 7-month cryogenic phase. Following the depletion of WISE's cryogenic coolant in 2011, Mainzer became the principal investigator for the NEOWISE , a repurposed extension of the WISE focused on surveying near-Earth objects and other solar system bodies using its remaining warm- capabilities. Under her leadership, NEOWISE operated from September 2011 until July 2024, when the mission concluded after over 12 years, managed by JPL, and provided data on more than 44,000 asteroids and comets to enhance planetary defense efforts. Mainzer also leads as for the Surveyor () mission, a infrared space telescope dedicated to discovering and characterizing potentially hazardous asteroids. Development of the mission, managed by JPL, received 's approval in June 2021, with a targeted launch no earlier than late 2027. Throughout her JPL tenure, which extended until 2019, Mainzer contributed to the design of infrared instrumentation for various missions, advancing technologies for sensitive detection in astrophysical surveys.

Academic Positions

In 2019, Amy Mainzer joined the University of Arizona's Lunar and Planetary Laboratory as a of planetary sciences. At the institution, she taught graduate-level courses such as PTYS 595 on in planetary sciences, emphasizing teaching and mentoring skills for aspiring researchers. By 2023, Mainzer had transitioned to the (UCLA), serving as a in the Department of , , and Sciences. In this role, she continues to teach astronomy and courses, mentor undergraduate and graduate students on research projects involving observations, and lead academic research groups. Mainzer has also held leadership positions in professional organizations, including serving as Chair of the American Astronomical Society's Division for Planetary Sciences from 2020 to 2021. Throughout her academic career, she has balanced university duties with oversight of projects, such as leading the mission as principal investigator.

Research

Infrared Astronomy and Instrumentation

Amy Mainzer contributed to the by designing and building its fine guidance sensor, a critical component that ensures precise pointing accuracy during observations. As part of the Spitzer Infrared Spectrograph (IRS) team, she co-authored analyses of mid-infrared spectra of planetary atmospheres, including disk-averaged observations of acquired in 2007, which revealed stratospheric compositions such as abundances of hydrocarbons like C₂H₂ and C₂H₆. These spectra, spanning 5 to 37 μm, provided the highest-resolution broad-band data from space at the time, enabling determinations of disk-averaged temperatures and vertical profiles in the upper and . Mainzer served as deputy project scientist for the (WISE), a mission launched in 2009 that conducted an all-sky survey in four bands (3.4, 4.6, 12, and 22 μm) to detect cool, low-luminosity objects invisible or faint at optical wavelengths. Under her involvement, WISE identified numerous cool , including ultra-cool Y dwarfs with temperatures below 500 K, expanding the known population of substellar objects and revealing their distribution in the solar neighborhood. The mission's cryogenic operation for 10 months enabled sensitive detection of these faint sources, with preliminary data processing pipelines developed to handle the vast survey volume. Following WISE's primary mission, Mainzer became for NEOWISE, an enhancement that reactivated the in 2013 for ongoing surveys focused on thermal detection of solar system bodies. NEOWISE utilizes the spacecraft's sensitivity to thermal emissions at 3.4 and 4.6 μm to characterize asteroids and comets by measuring their sizes, albedos, and thermal properties, independent of reflected sunlight. This has resulted in observations of over 1 million minor bodies, providing uniform data to refine population models. In instrumentation innovations, Mainzer advanced automated analysis methods for processing infrared survey data on solar system minor bodies, including algorithms for multi-epoch photometry and moving in WISE/NEOWISE datasets. These tools enable efficient extraction of light curves and models from time-domain observations, supporting rapid of transient sources. Key publications include her lead authorship on the 2011 Astrophysical Journal paper presenting preliminary NEOWISE results, which detailed the survey's initial detection of near-Earth objects and validation of emission techniques. Another seminal work co-authored by Mainzer outlines enhancements to WISE for solar system science, emphasizing innovations for and minor body discoveries. These contributions have established surveys as essential for probing cool and thermally emitting populations.

Near-Earth Object Detection

Amy Mainzer has advanced (NEO) detection through the utilization of thermal emission, which allows for the identification and accurate sizing of asteroids and comets regardless of their reflectivity, as these objects re-emit absorbed in the spectrum. As for NASA's NEOWISE mission, a repurposed version of the (WISE) launched in 2009, Mainzer led efforts that characterized over 158,000 minor planets during the primary mission, including more than 500 NEOs, and continued operations post-2013 reactivation to measure over 1.6 million observations of nearly 45,000 solar system objects, encompassing over 3,000 NEOs (with approximately 3,500 unique NEOs observed across the NEOWISE phases), as of the mission's end in 2024. The NEOWISE mission concluded operations on August 1, 2024, with the spacecraft re-entering Earth's atmosphere on November 2, 2024. These observations enabled the discovery of hundreds of new NEOs and provided critical data on their sizes, albedos, and thermal properties, with NEOWISE contributing to the characterization of over 3,000 NEOs—about 10% of the known population—by the mission's end in 2024. A seminal publication from this work, Mainzer et al. (2011), detailed preliminary NEOWISE results on populations, estimating 981 ± 19 larger than 1 km, 20,500 ± 3,000 larger than 100 m, and 13,200 ± 1,900 larger than 140 m, demonstrating that surveys could meet or exceed the Spaceguard goal of detecting 90% of kilometer-sized while revealing a unexpectedly low number of large, dark objects. Building on these findings, Mainzer contributed to modeling populations and discovery rates, including the 2023 Near-Earth Known Object Model (Grav et al.), which integrates current survey data to project future discoveries and assess progress toward cataloging all potentially hazardous over 140 m in diameter, using over 32,000 known as a baseline with an annual discovery rate exceeding 3,000. Mainzer's expertise also shaped planetary defense strategies through her involvement in the 2010 National Research Council report "Defending Earth: Near-Earth-Object Surveys and Hazard Mitigation Strategies," where she served on the committee recommending enhanced capabilities for NEO detection to fulfill congressional mandates. This informed her leadership in developing the mission, a dedicated set for launch no earlier than 2027, designed to discover and characterize 90% of NEOs larger than 140 m—the size threshold for potential global impacts—by surveying the sky every few days and prioritizing hazardous objects for follow-up. Over its five-year baseline mission, is projected to find 200,000–300,000 new NEOs down to sizes as small as 10 m, significantly advancing global planetary defense efforts.

Other Astrophysical Studies

Mainzer has contributed to the study of planetary atmospheres through , particularly using data from NASA's . In 2007, as part of the Spitzer Infrared Spectrometer (IRS) observations conducted near Uranus's , Mainzer helped acquire mid- spectra (5–37 μm) that provided detailed insights into the planet's upper and . These observations revealed disk-averaged stratospheric column abundances above the 10-mbar level of (C₂H₆) at 3.1 ± 0.3 × 10^{16} molecule cm^{-2} and (C₂H₂) at 6.2 ± 1.0 × 10^{16} molecule cm^{-2}, along with constraints on tropospheric and . The spectra indicated stratospheric temperatures around 158 ± 3 K at the 0.1 mbar level, compatible with Voyager-era measurements and highlighting the role of in probing cold, distant atmospheres. Building on these techniques, Mainzer co-analyzed the same Spitzer dataset in a study to detect longitudinal variations in Uranus's , revealing up to 15% differences in (CH₄), , and emissions across four central meridian longitudes. These variations, with stratospheric temperature shifts of less than 3 K, suggest dynamical processes such as large-scale uplift or wave activity influencing atmospheric composition at pressures around 0.1 mbar, while tropospheric hydrogen-helium and deuterated showed negligible change (<2%). Such findings underscore the utility of infrared observations for understanding seasonal and zonal dynamics in gas giant atmospheres. In broader astrophysical contexts, Mainzer's leadership in the NEOWISE mission has advanced research on comets and small-body populations using all-sky infrared surveys from the Wide-field Infrared Survey Explorer (WISE). As principal investigator, she oversaw the COSINE project, which analyzed 484 comets over 15 years of NEOWISE data, distinguishing 234 long-period comets (LPCs) from 250 short-period comets (SPCs) at heliocentric distances of 1–11 au. The study found LPCs brighter in W1 (3.4 μm) and W2 (4.6 μm) bands than SPCs at equivalent distances, with activity peaking near perihelion and SPCs displaying asymmetric post-perihelion fading due to dust dynamics. This work establishes evolutionary gradients in cometary nuclei and comae, driven by solar heating, contributing to models of solar system small-body origins without focusing on hazard assessment. Mainzer's involvement in WISE also facilitated studies of debris disks, brown dwarfs, and star formation regions through its infrared sensitivity to cool dust and faint objects. As deputy project scientist, she contributed to the mission's all-sky catalog, which imaged thousands of debris disks around nearby stars, revealing their dust geometries and potential links to planetary system formation. For instance, WISE detected warm debris around main-sequence stars, providing evidence of collisional evolution in extrasolar analogs to our zodiacal cloud. Additionally, NEOWISE observations under her guidance identified ultra-cool brown dwarfs, such as WISE J085510.83−071442.5, the coldest known at approximately 225–260 K, offering benchmarks for substellar atmosphere models. These efforts, combined with WISE's mapping of star-forming regions like the , have enhanced understanding of galactic phenomena, including dust-obscured star birth and the low-mass end of the initial mass function.

Awards and Honors

Scientific Awards

Amy Mainzer has received several prestigious awards recognizing her contributions to infrared astronomy, near-Earth object detection, and mission leadership at NASA. These honors highlight her role in advancing scientific understanding of solar system bodies through innovative instrumentation and data analysis. In 2011, she was awarded the NASA Exceptional Achievement Medal for her leadership in the Wide-field Infrared Survey Explorer (WISE) mission, which produced an all-sky infrared map enabling breakthroughs in asteroid characterization. In 2012, Mainzer received the NASA Exceptional Scientific Achievement Medal for her principal investigator role on the NEOWISE mission, an extension of WISE focused on detecting and characterizing near-Earth objects, which observed over 150,000 asteroids, including approximately 34,000 new ones, and enhanced planetary defense capabilities. Mainzer earned the NASA Exceptional Public Service Medal in 2018 for her sustained efforts in studying near-Earth asteroids, including developing thermal models that improved size and albedo estimates for thousands of objects, informing global hazard assessment. She also received the Lew Allen Award for Excellence in 2010 from NASA's Jet Propulsion Laboratory, honoring her expertise in analyzing solar system minor bodies using automated infrared observation techniques from space missions. In 2025, Mainzer was elected a Fellow of the for her significant advancements in astrophysical instrumentation, infrared astronomy, and small-body science, as well as her leadership on NEOWISE and public outreach in astronomy. Additionally, she has been part of multiple NASA Group Achievement Awards for her contributions to the , , and NEOWISE missions, which collectively revolutionized infrared surveys of the universe and solar system.

Named Asteroid

Asteroid (234750) Amymainzer is a main-belt named in honor of astronomer Amy Mainzer for her contributions to infrared surveys that enhance the detection of . It was discovered on July 8, 2002, by the Near-Earth Asteroid Tracking (NEAT) program at Palomar Observatory in California, initially designated as 2002 NX<sub>69</sub>. The official naming citation was published by the on July 26, 2010, in Minor Planet Circular 71353, recognizing Mainzer (born 1974) as a key member of the (WISE) team and for projects advancing infrared-based detection. Orbiting within the main asteroid belt between Mars and Jupiter, (234750) Amymainzer has a semi-major axis of 3.21 , an of 0.20, and an inclination of 19.4° relative to the , resulting in an of approximately 5.75 years. Its perihelion distance is 2.56 and aphelion 3.86 , with an of 15.5 indicating a moderately bright object observable from under good conditions. This naming underscores Mainzer's role in astronomy, which has ties to her broader efforts in identifying near-Earth objects through missions like NEOWISE.

Outreach and Media

Educational Programs

Amy Mainzer has played a significant role in science education for children through her involvement with the animated series Ready Jet Go!, which premiered in 2016. As the science curriculum consultant and host of educational segments, she explains complex astronomy concepts, such as the phases of the and the speed of like Voyager, in accessible ways designed to spark interest in space science among young audiences. In university settings, Mainzer has contributed to planetary science education through teaching and mentoring. At the University of California, Los Angeles (UCLA), where she serves as a professor in the Department of Earth, , and Space Sciences, she instructs undergraduate courses in , focusing on the formation and evolution of planetary systems. Previously, at the University of Arizona's Lunar and Planetary Laboratory, she taught PTYS 595: for planetary science graduate students, providing guidance on professional paths in academia, national labs, and industry. Through these roles, she mentors early-career scientists, emphasizing practical skills and research opportunities in . Mainzer's work with NASA's NEOWISE mission, for which she serves as , includes contributions to educational efforts that connect mission to public learning about near-Earth objects and astronomy. These initiatives, such as resources and public engagement activities, aim to broaden understanding of planetary defense among students and educators. In recent years, Mainzer has continued her public outreach through talks and interviews, including a congressional on NASA's planetary in May 2025 and a public lecture on asteroid detection efforts in June 2025. She also discussed the importance of funding for in a May 2025 interview.

Film and Television Roles

Amy Mainzer has made notable appearances as an expert commentator in several television documentaries focused on astronomy and space science. She featured prominently in the History Channel series The Universe (2007–2015), appearing in 16 episodes where she discussed topics such as cosmic clusters, space probes, and potential threats from asteroids and comets, drawing on her expertise in infrared astronomy. In 2016, Mainzer appeared as herself in the documentary film For the Love of Spock, directed by Adam Nimoy, which explores the cultural impact of Leonard Nimoy's portrayal of Spock in Star Trek. Her interview segments highlighted the character's influence on public interest in science and exploration. Mainzer served as a scientific advisor for the 2021 Netflix satirical film , directed by , where she provided guidance on the realistic portrayal of comet detection and potential asteroid impacts, informed by her work on (NEO) surveys. The film's protagonists, played by and , were loosely inspired by her experiences in planetary defense. She has also contributed to other television productions addressing planetary defense, including the 2013 BBC documentary Comet Encounter, where she explained the science of comet trajectories and collision risks as an on-camera expert. Additionally, Mainzer appeared in episodes of the Science Channel series How the Universe Works (2010–present), such as "Comets: Frozen Wanderers" (2012), discussing NEO threats and detection methods.

References

  1. [1]
    NASA's NEOWISE Extends Legacy With Decade of Near-Earth ...
    Apr 4, 2024 · “The space telescope has been a workhorse for characterizing NEOs that may pose a hazard to Earth in the future,” said Amy Mainzer ...<|control11|><|separator|>
  2. [2]
    NASA's NEO Surveyor Successfully Completes Critical Design Review
    Feb 11, 2025 · Expected to launch no earlier than late 2027, the NEO Surveyor mission is led by Professor Amy Mainzer at UCLA for NASA's Planetary Defense ...
  3. [3]
    267: Dr. Amy Mainzer: Directing Our Eyes to the Skies with Stellar ...
    Jun 5, 2015 · Amy Mainzer is a Senior Research Scientist and the Principle Investigator for the Near Earth Object Wide-field Infrared Survey Explorer (NEOWISE) ...
  4. [4]
    NASA Women's History Month Profile - Amy Mainzer - YouTube
    Mar 23, 2012 · ... astronomy at Caltech. After receiving her M.S. at Caltech, she ... NASA Women's History Month Profile - Amy Mainzer. 7.7K views · 13 ...Missing: biography - | Show results with:biography -
  5. [5]
    A Voyage of Discovery with Amy Mainzer
    Mar 7, 2012 · Amy Mainzer, an expert on asteroids and the evolution of galaxies. She's the deputy project scientist for the Wide-Field Infrared Survey Explorer, or WISE, ...
  6. [6]
    October 7, 2015 How Do We Know What We Don't Know About ...
    Oct 7, 2015 · Amy Mainzer is a Senior Research Scientist at NASA's Jet Propulsion Laboratory, and the Principal Investigator of the NEOWISE mission to survey ...
  7. [7]
    Amy Mainzer | The Planetary Society
    Amy Mainzer is a professor in the Lunar and Planetary Lab at the University of Arizona, Principal Investigator for the NEOWISE mission, and leads the NEO ...Missing: astronomer | Show results with:astronomer
  8. [8]
    EPSS Professor Amy Mainzer Named 2025 Fellow of the American ...
    We are proud to announce EPSS Professor Amy Mainzer has been named a 2025 Fellow of the American Astronomical Society.Missing: current position
  9. [9]
    NASA's NEO Surveyor in Deep Space (Artist's Concept)
    Aug 29, 2024 · The project is being developed by JPL and is led by principal investigator Amy Mainzer at UCLA. Established aerospace and engineering ...
  10. [10]
    From starlight to spotlight: UCLA professor Amy Mainzer defends ...
    May 13, 2025 · This post was updated at 11:23 p.m.. Amy Mainzer didn't plan on studying asteroids when she graduated from her doctoral program in 2003.
  11. [11]
    Astronomer Amy Mainzer On the Real Science In 'Don't Look Up'
    Meet Dr. Amy Mainzer, the Comet Consultant on 'Don't Look Up'. Good news: She doesn't think a comet is coming for us anytime soon.Missing: biography - | Show results with:biography -
  12. [12]
    AAS Names 24 New Fellows for 2025 | American Astronomical Society
    Jan 13, 2025 · Amy Mainzer (University of California, Los Angeles): For significant contributions to astrophysical instrumentation, infrared astronomy, and ...Missing: current | Show results with:current
  13. [13]
    Amy Mainzer TV Shows List | Rotten Tomatoes
    Amy Mainzer ; Highest Rated: Not Available ; Lowest Rated: Not Available ; Birthday: Jan 2, 1974 ; Birthplace: Mansfield, Ohio, USA ...
  14. [14]
    ROLE MODELS | Dr. Amy Mainzer | PBS KIDS | WPBS
    Nov 19, 2019 · When she was seven years old, Amy Mainzer saw a picture of a galaxy and instantly fell in love with astronomy. She's been learning and ...Missing: Andromeda | Show results with:Andromeda
  15. [15]
    NASA Scientist Amy Mainzer Searches Beyond the Sky for ...
    Oct 22, 2013 · Ms. Mainzer, who earned a B.S. in Physics with honors from Stanford University, an M.S. in Astronomy from the California Institute of Technology ...
  16. [16]
    New Zealand Deployment - UCLA Infrared Lab
    Amy Mainzer (PhD 2003), FLITECAM's 1st graduate student, pulled all of the optics together for first light at Lick Observatory in 2002. After two successful PhD ...
  17. [17]
    [PDF] E N D L E S S - NASA Jet Propulsion Laboratory (JPL)
    in her workshop, “the infrared universe: that's Hot!,” JPl's amy mainzer showed students “there's more to light than what your eyes can see.” through ...
  18. [18]
    NASA's NEOWISE Celebrates 10 Years, Plans End of Mission
    Dec 13, 2023 · Mainzer is also leading NASA's upcoming NEO Surveyor, which will build on NEOWISE's legacy. The next-generation infrared space telescope will ...
  19. [19]
    Leading Asteroid Hunter Joins UA | University of Arizona News
    Jun 19, 2019 · Mainzer holds a doctorate from the University of California, Los Angeles and a Master of Science degree from the California Institute of ...
  20. [20]
    [PDF] PTYS 595 Career Development - The University of Arizona
    Amy Mainzer (she/they). Classroom: Kuiper 7. Lecture Time: Mondays 3:30-4:45pm ... teaching/mentoring. The course is intended to help PTYS graduate ...
  21. [21]
    Amy Mainzer - UCLA EPSS
    Amy Mainzer. Professor Faculty 310-206-6247 mainzer@epss.ucla.edu. 2810A Geology. Resources. Inclusive Excellence · Field Trip Resources · EPSS Helpdesk ...
  22. [22]
    Past DPS Officers | AAS Division for Planetary Sciences
    Amy Mainzer, 2020-2021. Amanda ... (Vice-Chair only from Oct 2006 to Mar 2007, resigned duties when he became the NASA Associate Administrator for Science).
  23. [23]
    Mid-infrared spectroscopy of Uranus from the Spitzer Infrared ...
    The Spitzer Space Telescope Infrared Spectrograph (IRS) had been used to acquire disk-averaged spectra of Uranus from 5 to 37 μm in Spitzer Guaranteed Time ...
  24. [24]
    [1407.2120] Mid-Infrared Spectroscopy of Uranus from the Spitzer ...
    Jul 8, 2014 · This spectrum provides the highest-resolution broad-band spectrum ever obtained for Uranus from space, allowing a determination of the disk- ...
  25. [25]
    Cool Star is a Gem of a Find | NASA Jet Propulsion Laboratory (JPL)
    Nov 9, 2010 · "The brown dwarfs jump out at you like big, fat, green emeralds," said Amy Mainzer, the deputy project scientist of WISE at NASA's Jet ...
  26. [26]
    WISE/NEOWISE - NASA Science
    Launch Date and Time, Dec. 14, 2009 | 14:09 UT. Launch Site, Vandenberg Air ... Amy Mainzer, the NEOWISE principal investigator. “The mission serves as an ...
  27. [27]
    NASA Extends UArizona-Led Asteroid Search Mission
    Jun 30, 2021 · Amy Mainzer is an expert in infrared astronomy at the University of Arizona. The mission was re-dubbed NEOWISE when it turned its eyes back to ...
  28. [28]
    An Enhancement to the Wide-field Infrared Survey Explorer for Solar ...
    Feb 9, 2011 · Preliminary Results from NEOWISE: An Enhancement to the Wide-field Infrared Survey Explorer for Solar System Science. Authors:A. Mainzer, J.
  29. [29]
    https://science.nasa.gov/mission/neowise/
  30. [30]
    NEOWISE OBSERVATIONS OF NEAR-EARTH OBJECTS
    The NEOWISE survey detected NEOs the same way whether they were previously known or not, subject to the availability of ground-based follow-up observations, ...
  31. [31]
    The NEOWISE Project
    11-14-2024 • NEOWISE Final Release Now Available · 11 ... The Principal Investigator for NEOWISE is Amy Mainzer of the University of California, Los Angeles.
  32. [32]
    Final data and undiscovered images from NASA's NEOWISE
    Nov 1, 2024 · Over its mission lifetime, NEOWISE has characterized over 3000 NEOs—approximately 10% of the known population, and something that was only ...Missing: total | Show results with:total
  33. [33]
    The Near-Earth Object Surveyor Mission - IOPscience
    Over the course of its survey, NEO Surveyor will discover ∼200,000–300,000 ... 2019), the Near-Earth Object Wide-field Infrared Survey Explorer (NEOWISE) survey ( ...
  34. [34]
    [1407.2118] Mid-Infrared Spectroscopy of Uranus from the Spitzer ...
    Jul 8, 2014 · Mid-infrared spectral observations Uranus acquired with the Infrared Spectrometer (IRS) on the Spitzer Space Telescope are used to determine ...Missing: contributions atmospheres
  35. [35]
    [2104.13113] Longitudinal Variations in the Stratosphere of Uranus ...
    Apr 27, 2021 · NASA's Spitzer Infrared Spectrometer (IRS) acquired mid-infrared (5-37 microns) disc-averaged spectra of Uranus very near to its equinox in ...
  36. [36]
    COSINE (Cometary Object Study Investigating their Nature and ...
    Aug 20, 2025 · This study establishes a foundation for subsequent COSINE analyses, which will separate nucleus and coma contributions and model dust dynamics ...
  37. [37]
    [PDF] The Wide-field Infrared Survey Explorer (WISE)
    WISE will study the nearest planetary debris disk: our own zodiacal cloud and asteroid system. The interplanetary dust cloud is a complex distri- bution of dust ...
  38. [38]
    A WISE Observation of a coolest brown dwarf, CFBDSIR 1458+1013
    Apr 13, 2011 · Here we use the WISE data to show that 1458+1013B is almost certainly warmer and more luminous than WD 0806-661B.
  39. [39]
    [PDF] the national academies press
    Tananbaum has earned the NASA Exceptional Scientific Achievement Medal, the NASA Public Service. Award ... AMY MAINZER is a senior research scientist at the ...
  40. [40]
    Office of Research and Development (ORD) | Profile Amy Mainzer
    Amy Mainzer, Researcher, amainzer@email.arizona.edu, Achievements, Awards & Recognitions, The Lew Allen Award for Excellence.
  41. [41]
    IAU Minor Planet Center
    ### Summary of Asteroid (234750) Amymainzer
  42. [42]
    PBS KIDS Announces New Series READY JET GO! Will Premiere in ...
    Apr 9, 2015 · Amy Mainzer, the science curriculum consultant for the series, adds, “Most scientists and engineers I know chose to get into the field because ...
  43. [43]
    Host and Astrophysicist Dr. Amy Mainzer of New PBS Kids Series ...
    Feb 15, 2016 · Dr. Amy Mainzer, READY, JET GO! host and astrophysicist at NASA's Jet Propulsion Lab joined us to talk about READY JET GO! 3-D animated series.
  44. [44]
    https://www.jpl.nasa.gov/site/research/amainzer/
  45. [45]
    Science advisor Amy Mainzer talks asteroids and new Netflix movie ...
    Dec 7, 2021 · Mainzer served as the science advisor for Netflix's new film "Don't Look Up," a comedy-disaster film that is set to release in theaters on Dec. 10 (and on Dec. ...<|control11|><|separator|>