2022 Boulder Space Weather Summer School

Hosted by HAO/NCAR at the Embassy S

3rd Eddy Cross Disciplinary Symposium 2022

Sun, Earth, Planet, Space, Atmosphere and Ocean–As our planet becomes one among many thousands of known worlds, our needs to understand how Earth’s space and climate react to our variable star grow

UCoMP Instrument NEARING SCIENCE MISSION PHASE

The Upgraded Coronal Multi-Channel Polarimeter (UCoMP) coronagraph was deployed to Mauna Loa Solar Observatory in 2021.

New Scientific Paper Featuring Observations from NASA's ICON Mission

On November 29, 2021, NASA announced a new paper where "scientists presented the first direct measurements" from the ICON mission whose purpose is to observe a very complex geospace system.

Why do we still have a coronal heating problem

After almost 8 decades, astronomers still debate the reasons why the Sun and sun-like stars must possess coronae.

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Recent News

Center for Geospace Storms: Transforming the understanding and predictability of space weather. Image: APL

The Multiscale Atmosphere-Geospace Environment (MAGE) model

April 22, 2022

NCAR is a leading partner in the development of a model simulation that will transform scientists’ ability to model the impacts of space weather storms, which can disrupt radio communications, damage satellites, endanger astronauts, and down electrical grids.

A giant solar flare erupting from the sun

2022 UCAR/NCAR Summer Programs: Space Weather & Heliophysics

March 31, 2022

Join us for two excellent opportunities to broaden and deepen your understanding of Space Weather and Heliophysics, and to connect with the broader space physics community—the Boulder Space Weather Summer School and the Heliophysics Summer School.

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Publication Highlights

The solar spectrum seen at low resolution

Optimal spectral lines for measuring chromospheric magnetic fields

June 22, 2022

This paper identifies spectral lines from EUV to infrared wavelengths which are optimally suited to measuring vector magnetic fields as high as possible in the solar atmosphere.

CLEDB 2-line magnetic inversion algorithm flowchart.

Efficient and Automated Inversions of Magnetically-Sensitive Forbidden Coronal Lines: CLEDB - The Coronal Line Emission DataBase Magnetic Field Inversion Algorithm

June 22, 2022

Alin Paraschiv and Philip Judge present CLEDB, a single point inversion algorithm for determining magnetic parameters using spectro-polarimetric measurements of emission lines formed in the solar corona.

The Coronal Veil

June 22, 2022

Coronal loops, seen in solar coronal images, are believed to represent emission from magnetic flux tubes with compact cross sections. We examine the 3D structure of plasma above an active region in a radiative magnetohydrodynamic simulation to locate volume counterparts for coronal loops.

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MLSO Latest Images

CoMP Coronal Intensity

The COronal Multi-channel Polarimeter (CoMP) observes the Fe-XIII emission line at 1074.7 nm to measure the coronal magnetic field and obtain plasma density and motion in the low corona from ~1.03 to 1.5 solar radii.

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K-Cor White Light Corona

Designed to study the formation and dynamics of coronal mass ejections and the evolution of the density structure of the low corona, K-Cor records the polarization brightness (pB).

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K-Cor (radially graded filter)