Heidi N. Becker

Heidi N. Becker's AcademicInfluence.com Rankings

Heidi N. Becker

Physics

#9314

World Rank

#11731

Historical Rank

#2074

USA Rank

physics Degrees

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Physics

Why Is Heidi N. Becker Influential?

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According to Wikipedia, Heidi N. Becker is an American planetary scientist who studies Jupiter as radiation monitoring investigation lead for NASA Juno space mission. She works at NASA's Jet Propulsion Laboratory. Becker came to science late; she was a dance and theater student at the Los Angeles County High School for the Arts and the New York University Tisch School of the Arts, and graduated from NYU with a bachelor of fine arts in 1990. After working in theater in New York, she became interested in science through hospital volunteer work, and returned to college in her mid-20s, initially in New York and then transferring to California State Polytechnic University, Pomona. She joined the Jet Propulsion Lab while still working towards a second bachelor's degree in physics at Cal Poly Pomona. She completed her degree in 2001, and became a full-time researcher at JPL.

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Heidi N. Becker's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

JIRAM, the Jovian Infrared Auroral Mapper (2017) (85)
Latent damage in CMOS devices from single-event latchup (2002) (66)
Dark current degradation of near infrared avalanche photodiodes from proton irradiation (2004) (39)
Displacement damage-induced catastrophic second breakdown in silicon carbide Schottky power diodes (2004) (38)
Total dose degradation of MEMS optical mirrors (2003) (37)
The influence of structural characteristics on the response of silicon avalanche photodiodes to proton irradiation (2003) (29)
Catastrophic latchup in CMOS analog-to-digital converters (2001) (27)
Observations of MeV electrons in Jupiter's innermost radiation belts and polar regions by the Juno radiation monitoring investigation: Perijoves 1 and 3 (2017) (25)
The Juno Radiation Monitoring (RM) Investigation (2017) (25)
Storms and the Depletion of Ammonia in Jupiter: I. Microphysics of “Mushballs” (2020) (21)
Effect of boron ion implantation and subsequent anneals on the properties of Si nanocrystals (2006) (20)
Small lightning flashes from shallow electrical storms on Jupiter (2020) (19)
Effects of Gamma and Heavy Ion Damage on the Impulse Response and Pulsed Gain of a Low Breakdown Voltage Si Avalanche Photodiode (2006) (16)
Juno radiation design and implementation (2012) (16)
Bar Code Events in the Juno‐UVS Data: Signature ∼10 MeV Electron Microbursts at Jupiter (2018) (12)
Radiation Response of Emerging High Gain, Low Noise Detectors (2007) (10)
Microwave observations reveal the deep extent and structure of Jupiter’s atmospheric vortices (2021) (9)
Commercial Sensory Survey Radiation Testing Progress Report (2008) (7)
Electron-Induced Displacement Damage Effects in CCDs (2006) (6)
Degradation of InP-based Geiger-mode avalanche photodiodes due to proton irradiation (2011) (5)
Effects of Radiation on Commercial Power Devices (2006) (5)
Qualification and reliability testing of a commercial high-power fiber-coupled semiconductor laser for space applications (2005) (5)
Energetic Electron Distributions Near the Magnetic Equator in the Jovian Plasma Sheet and Outer Radiation Belt Using Juno Observations (2021) (4)
High-energy electron testing of CCDs for a Jovian science mission (2005) (4)
Commercial Sensor Survey Fiscal Year 2009 master compendium radiation test report (2008) (4)
Latent damage from single-event latchup (2002) (4)
Proton damage in LEDs with wavelengths above the silicon wavelength cutoff (2004) (4)
Effects of Displacement Damage on the Time-Resolved Gain and Bandwidth of a Low Breakdown Voltage Si Avalanche Photodiode (2006) (4)
Juno/JIRAM: Planning and commanding activities (2020) (3)
Earth’s Radiation Belts: The View from Juno’s Cameras (2013) (3)
The Evolving Space Weather System—Van Allen Probes Contribution (2014) (3)
Commercial sensor survey status report (2008) (3)
Total dose degradation of optical MEMS mirrors (2003) (2)
Surface Features of Ganymede Revealed in Jupiter‐Shine by Juno’s Stellar Reference Unit (2022) (2)
Relative degradation of near infrared avalanche photodiodes from proton irradiation (2004) (2)
FY 04 NEPP TRO – Sensor Technology : Near Infrared Avalanche Photodiodes (2004) (2)
Frontiers in Planetary Rings Science (2020) (2)
High Latitude Zones of GeV Heavy Ions at the Inner Edge of Jupiter's Relativistic Electron Belt (2021) (2)
Lightning Generation in Moist Convective Clouds and Constraints on the Water Abundance in Jupiter (2021) (1)
A 3D tomographic reconstruction method to analyze Jupiter's electron-belt emission observations (2017) (1)
Proton irradiation of InGaAs/InP and InGaAsP/InP Geiger-mode avalanche photodiodes (2009) (0)
Radiation Test Results for Semiconductor Technology Associates STA0100 and STA0120 P-Channel CCD's (2006) (0)
Characterizing Jupiter's energetic (>15 MeV) particle environment with the Juno MAG investigation's micro Advanced Stellar Compass (2019) (0)
The polar region of Jupiter’s aurora : barcode noise, conjugate flares and more... (2018) (0)
Recent results from the imagery of Juno’s Stellar Reference Unit (2020) (0)
Comparison of the effects of 51-MeV protons on differing silicon avalanche photodiode structures (2003) (0)
Detecting radiation with Juno/JIRAM (2019) (0)
Transient Effects in Silicon and InGaAs Avalanche Photodiodes (2005) (0)
JUNO/MWR's supportive observations of downward field-aligned MeV electrons at Jupiter (2018) (0)
The Juno Radiation Monitoring (RM) Investigation (2017) (0)
Jupiter's surprising space environments as revealed by the Juno mission (2018) (0)
Relating Jovian Lightning Rates and Water Abundance: a One-Dimensional Model (2019) (0)
JIRAM, the Jovian Infrared Auroral Mapper (2014) (0)
Commercial sensor survey Fiscal Year 2010 radiation test report (2010) (0)
Juno's Investigation of Jupiter's Magnetosphere (2018) (0)
Loss and source mechanisms of Jupiter's radiation belts near the inner boundary of trapping regions (2017) (0)
One-Year Observations of Jupiter by the Jovian Infrared Auroral Mapper on Juno (2017) (0)
Auroral acceleration at Jupiter and its possible role in creating Jupiter’s uniquely energetic radiation belts (2018) (0)
Comparing Electron Radiation Belts and New Lessons from Jupiter (2019) (0)
Systematic capture of MeV electron beams by MWR (2017) (0)
Observations from Juno's Radiation Monitoring Investigation during Juno's Early Orbits (2017) (0)
A depletion of ammonia and water by storms in the deep atmosphere of Jupiter (2020) (0)
Study of catastrophic latchup in the DSP2100 signal processor chip for MLS (2001) (0)
Reconciling Juno and past mission datasets to improve large-scale models of radiation-belt electron and radio emission distributions at Jupiter (2021) (0)
Juno observations of Jupiter's moons (2019) (0)
A multi-instrument analysis of Juno data to investigate the sources of non-thermal radiation at Jupiter (2018) (0)
High energy heavy ion zones within the inner edge of Jupiter's relativistic electron belt (2018) (0)
Model-guided quantitative analysis of Juno's observations of MeV-energy electrons at Jupiter (2017) (0)
Frontiers in Planetary Rings ScienceA Science White Paper for the Planetary Science and Astrobiology Decadal Survey 2023-2032 (2020) (0)

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Other Resources About Heidi N. Becker

en.wikipedia.org

What Schools Are Affiliated With Heidi N. Becker?

Heidi N. Becker is affiliated with the following schools:

California Institute of Technology