News Release Archive:

News Release 910 of 1051

January 10, 1995 05:00 PM (EST)

News Release Number: STScI-1995-03

Red Dwarf Dynamo Raises Puzzle over Interiors of Lowest Mass Stars


Image: The Interior Workings of Stellar Dynamo Gliese 752

The Interior Workings of Stellar Dynamo Gliese 752STScI-PRC1995-03

Screen-use options: These files are created for viewing on your monitor

Print-use download options: These files are designed to fit on letter-size paper


Before the Hubble observation of Gliese 752, astronomers thought magnetic fields in stars required the same dynamo process which creates magnetic fields on the Sun. In the classic solar model heat generated by nuclear fusion reactions at the star's center escapes through a radiative zone just outside the core. The heat travels from the radiative core to the star's surface through a convection zone. In this region, heat bubbles to the surface by motions similar to boiling in a pot of water.

Dynamos, which accelerate electrons to create magnetic forces, operate when the interior of a star rotates faster than the surface. Recent studies of the Sun indicate its convection zone rotates at nearly the same rate at all depths. This means the solar dynamo must operate in the more rapidly rotating radiative core just below the convective zone.

Object Name: Gliese 752

Image Type: Illustration

Credit: NASA and J. Linsky (JILA)


All images from this news release:

To access available information and downloadable versions of images in this news release, click on any of the images below: