Center For Solar Terrestrial Research - Big Bear Solar Observatory

6/1/18 → 5/31/21

Project: Research project

Earthcube Rcn: Towards Integration Of Heliophysics Data, Modeling, And Analysis Tools

4/1/18 → 3/31/20

Project: Research project

Workshop: Roadmap For Reliable Ensemble Forecasting Of The Sun-Earth System; Njit, March, 2018

1/1/18 → 12/31/18

Project: Research project

At The Cusp Of The 21St Century: The Next Generation Of Geospace Research Facilities At South Pole And Mcmurdo Stations

Gerrard, A.

9/1/17 → 8/31/22

Project: Research project

Collaborative Research: Electron Acceleration And Emissions From The Solar Flare Termination Shock

9/1/17 → 8/31/20

Project: Research project

Collaborative Research: Shine--Magnetic Energy Release During Solar Eruptions - From Large To Small Scales

8/15/17 → 7/31/20

Project: Research project

Career: Probing Energy Release In Solar Explosive Events With New Generation Radio Telescopes

1/15/17 → 12/31/21

Project: Research project

To Achieve These Goals, We Will: \Na - Use Vla Radio Data To Trace Flare Accelerated Electrons, Identify The Particle Acceleration Site, And\Nderive Its Spatial Distribution And Temporal Evolution.\Nb - Quantify The Energy Content Of The Accelerated Elect

1/1/17 → 12/31/19

Project: Research project

Dedicated Radio Imaging And Magnetic Field Measurements Of The Sun

9/15/16 → 8/31/19

Project: Research project

High-Resolution Studies Of Dynamic Processes In The Sunspot Umbra: Prenvironmental Protection Agencyring For The Era Of The Daniel K. Inouye Solar Telescope

Yurchyshyn, V.

9/1/16 → 8/31/19

Project: Research project

Executive Summary: The Prevailing Assumption Is That Most Of The Ions In 3He-Rich Solar Energetic Particle (Sep) Events Are Accelerated Through Magnetic Reconnection At The Flare. In This Scenario, Impulsive Events Are Accelerated And Escape Along Jet-L

6/20/16 → 6/19/19

Project: Research project

Collaborative Research: Shine: Study Of Long-Term Variability Of Solar Chromospheric Activity In Multiple Solar Cycles

6/15/16 → 5/31/19

Project: Research project

Gem: The Generation Of Falling-Tone Chorus And Scattering Of Particles By Chirped Waves

Soto Chavez, A.

6/1/16 → 5/31/19

Project: Research project

Studies Of White-Light And Black-Light Flares Using The 1.6 M New Solar Telescope (Nst) At Big Bear Solar Observatory (Bbso)

Xu, Y.

5/15/16 → 4/30/19

Project: Research project

The Structure And Evolution Of Magnetic Fields Are Crucial For Triggering Solar Eruptions, Which May Have Adverse Space Weather Effects On The Near-Earth Environment. Among Various Magnetic Structures, Magnetic Flux Ropes Are Of Extra Importance. They Are

2/26/16 → 2/25/19

Project: Research project

Determining The Origins Of The Suns Activity And Predicting The Variations In The Space Environment Are Important Goals Identified By National Aeronautics And Space Administrations Heliophysics Decadal Survey. The Related Research Depends Heavily On National Aeronautics And Space Administrations Heliophysics Space Missions. Nevertheles

Liu, C.

1/15/16 → 1/14/17

Project: Research project

Scientific Studies From A Network Of Sustainable, Robotic Observatories Across The Antarctic Ice-Shelf: A New Approach To Polar Research

Gerrard, A.

9/15/15 → 8/31/20

Project: Research project

Solar Flares Represent The Most Prominent Manifestation Of The Sun'S Magnetic Activity. They Are Accompanied By High-Speed Coronal Mass Ejections And High-Energy Particles, Which Play Critical Role In The Earth'S Space Environment And Space Weather. Solar

6/23/15 → 6/22/17

Project: Research project

High Resolution Observations Of Evolution Of Magnetic Fields And Flows Associated With Solar Eruptions

9/1/14 → 8/31/17

Project: Research project

We Propose To Operate The Newly Expanded Owens Valley Solar Array (Eovsa), A Solar-Dedicated Radio Telescope Of Unprecedented Capabilities, To Support A Wide Range Of Solar Science With National Aeronautics And Space Administration Solar And Heliospheric Spacecraft. This Proposal Fits The Helios

6/18/14 → 6/17/17

Project: Research project

Collaborative Research: Shine: Laboratory, Observational, And Modeling Investigations Of The Torus Instability And Associated Solar Corona Eruptive Phenomena

6/1/14 → 5/31/17

Project: Research project

Probing Solar Flares Using Radio Imaging Spectroscopy And Advanced Modeling

4/1/14 → 3/31/17

Project: Research project

Earthcube Domain End-User Workshop: Science-Driven Cyberinfrastructure Needs In Solar-Terrestrial Research; Newark, New Jersey; Spring 2014

3/1/14 → 2/28/15

Project: Research project

The Main Objectives Of This Project Are To Locate The Region Where The Flare Energy Release Results In Particle Acceleration And Heating, Evaluate Physical Parameters Of The Acceleration Region, Efficiency Of The Acceleration Mechanism(S), Thermal-To-Nont

1/1/14 → 12/31/16

Project: Research project

Small-Scale Dynamics In The Solar Chromosphere Are Believed To Play An Important Role In The Energy Balance And Structuring Of The Corona As Well As The Mass Transport In The Solar Wind. The Recently Discovered Type Ii Spicules At The Solar Limb Are Of P

Liu, C.

1/1/14 → 12/31/16

Project: Research project

Collaborative Research: Synoptic Geospace Systems Analysis Utilizing Instrumentation From South Pole And Mcmurdo Stations

Gerrard, A.

10/1/13 → 9/30/16

Project: Research project

Operation Of The Expanded Owens Valley Solar Array

9/1/13 → 8/31/16

Project: Research project

Observations Of Flares At Sub-Arcsecond Resolution With Sub-Second Cadence In Lower Solar Atmosphere Have Been Very Rare, But Are Crucial In Understanding The Initiation And Energy Release Process Of Solar Eruptions. Recent Completion Of The 1.6-M New Sol

3/1/13 → 2/28/17

Project: Research project

Coronal Magnetography Of Solar Active Regions Via 3D Modeling And Radio Imaging Spectroscopy

2/1/13 → 1/31/16

Project: Research project

Exploring The Physical Relationship Among Photospheric Magnetic Field Changes, Sunspot Motions, And Sunquakes During Solar Eruptions. Solar Flares And Coronal Mass Ejections (Cmes) Are Generally Believed To Be Manifestations Of A Sudden And Rapid Release

Liu, C.

2/1/13 → 1/31/17

Project: Research project

While Solar Energetic Particles (Seps) Are Believed To Escape The Sun Through Open Magnetic Field Lines, The Identification Of The Precise Escape Route Has Not Been Possible Until Now. Euv Jets And Type Iii Radio Burst Imaging Provide Unambiguous Direct S

1/11/13 → 1/10/16

Project: Research project

Exploring Large-Scale Current Sheets Associated With Coronal Mass Ejections

6/1/12 → 5/31/15

Project: Research project

Observations And Analysis Of White-Light Flares With High Resolution

Xu, Y.

3/1/12 → 2/28/15

Project: Research project

Searching For Photospheric Causes Of Small-Scale Chromospheric Activity

Yurchyshyn, V.