Welcome to the Max Planck Institute for Solar System Research

Welcome to the MPS

Press Releases

News

Seminars

Job Opportunities

Department Planets and Comets

Department Sun and Heliosphere

Department Solar and Stellar Interiors

Max Planck Research Group: Solar and Stellar Magnetic Activity

Minerva-Group: Solar Variability and Climate

Max Planck Research Group and ERC Starting Grant:
Stellar Ages and Galactic Evolution

News

Otto Hahn Medal for Jan Langfellner

June 21, 2017
Finding new Earths: PLATO spacecraft to be built

June 20, 2017
Honorary Doctorate for Sami K. Solanki

May 24, 2017
Cosmic namesakes

May 15, 2017
Supercomputer can shed light on sunspot formation

May 11, 2017

Axion research: CAST experiment sets new record for measuring accuracy

May 05, 2017
ERC Starting Grant for Alexander Shapiro

March 13, 2017
Dawn: Soaring to new heights

November 18, 2016
Rosetta landing on 30 September 2016

September 08, 2016
Philae found

September 08, 2016

July 2017

Solar Group Seminar: Transient events in the upper solar atmosphere and their relation to magnetic reconnection(H. Peter)

Aug 1, 2017 11:00 - 12:00

MPS, Room: Auditorium
Planetary Group Seminar: Tbd (G. Herdrich)

Aug 3, 2017 14:00 - 15:00

MPS, Room: Auditorium

Job Offers

Assistant to the Managing Director

June 30, 2017

Welcome to the Max Planck Institute for Solar System Research

Otto Hahn medal for Jan Langfellner

Exoplanet mission PLATO to be built

18 - 22 Sept. 2017
at the MPS

Our immediate cosmological surroundings are the research focus of the Max Planck Institute for Solar System Research: the solar system with its planets and moons, its comets and asteroids, and of course the Sun. The aim of the scientists is not only to theoretically model the workings of the solar system and simulate them on the computer, however. In close cooperation with their engineer colleagues, they also develop and build scientific instruments that investigate these celestial bodies. To do this, the institute collaborates with international space agencies such as NASA and ESA on numerous missions.

This department investigates the deep interior, the surfaces, atmospheres, ionospheres, and magnetospheres of planets and their moons, as well as comets and asteroids. The department contributes to important space missions such as the ESA mission Rosetta, which investigates the comet Churyumov-Gerasimenko; the NASA mission Dawn, which investigates the dwarf planet Ceres; and the NASA mission InSight, which is planned to investigate the deep interior of Mars.

The focus of this department is the solar interior, the solar atmosphere, the solar magnetic field, the heliosphere, and the interplanetary medium, as well as solar radiation and solar energetic particles. The balloon-mission Sunrise, a balloon-borne solar observatory, is managed by this department. The mission investigates our central star from a height of about 35 km above sea level. In addition to several other participations in space missions, the department significantly contributes to the ESA mission Solar Orbiter, which is scheduled for launch in 2017.

Methods of helioseismology are used in this department to explore the interior mechanisms of our star. The key to this are the turbulent convection flows in the solar interior, which cause the Sun to vibrate in millions of different ways. Similar methods are used for investigating the magnetic fields of solar-like stars. The department hosts the German Data Center for SDO, the only German data center of the NASA mission Solar Dynamics Observatory.

All activity phenomena in the Sun and other stars originate from their magnetic fields, which arise due to a hydromagnetic dynamo that converts kinetic energy into magnetic form. Even the solar dynamo remains enigmatic due to the extreme complexity of phenomena related to it. Observations of other stars provide important constraints on the stellar dynamo mechanism(s). The work of the group aims at combining these observations with theory and 3D numerical simulations to gain better understanding of the solar and stellar dynamos.

Radiation from the Sun makes Earth a habitable planet. Fluctuations in the solar radiative output are therefore likely to affect the climate on Earth, but establishing both how the output of the Sun varies and how such variations influence Earth's climate have proved tricky. Increased amounts of data from the Sun and about the climate on Earth over recent years means that rapid progress is being made. This work is aimed at understanding solar variability and the Sun's influence on the Earths' climate.

4

MPS Seminar: Realistic numerical simulations of convective overshooting in a DA white dwarf (F. Kupka)

from 11:00 to 12:00

5

S3 Seminar: Properties of structures in Transition Region and their connection to the underlying magnetic field (A. Cilla)

from 14:00 to 14:30

11

MPS Seminar: Remote In-Situ Solar Sensing - A Year at the MPS (G. Kopp)

from 11:00 to 12:00

12

S3 Seminar: Simulations of starspots (M. Panja)

from 14:00 to 14:30

S3 Seminar: The Seismic Structures of Solar-Type Stars: Surmising the Speeds of Sound Inside 16 Cygni (E. Bellinger)

from 14:30 to 15:00

13

MPS Seminar: Ion and electron acceleration to suprathermal energies during dipolarizations (E. Grigorenko)

from 15:00 to 16:00

24

MPS Seminar: Exploring a new effect in large-scale galactic dynamos (L. Chamandy)

from 11:00 to 12:00

Age is a fundamental property of stars. It is an essential tool to understand phenomena such as the evolution of stars, planetary systems, and the Galaxy. However, age is the most poorly known property of a star. Asteroseismology, the study of the internal structure of stars through stellar oscillations, offers the opportunity to estimate the ages of stars with much higher accuracy than before. Combining space observations with ground-based spectroscopy, the group determines the ages of thousands of stars with unprecedented precision.