Heller, R.; Hippke, M.; Placek, B.; Angerhausen, D.; Agol, E.: Predictable patterns in planetary transit timing variations and transit duration variations due to exomoons. Astronomy and Astrophysics 591, A67 (2016)
Oshagh, M.; Heller, R.; Dreizler, S.: How eclipse time variations, eclipse duration variations and radial velocities can reveal S-type planets in close eclipsing binaries. Mon. Not. Roy. Astron. Soc. 466, pp. 4683 - 4691 (2016)
Heller, R.: Detecting and Characterizing Exomoons and Exorings. In: Handbook of Exoplanets, pp. 835 - 851 (Eds. Deeg, H. J.; Belmonte, J. A.). Springer, Cham (2018)
Heller, R.: New Predictions of PLATO's Yield of Earth-sized Transiting Planets in the Habitable Zone of Sun-like Stars. SPP1992 all-hands-on-deck meeting, Online (2021)
Heller, R.: Analytic Solutions to Exoplanet Transit Depth for Ad Hoc Limb Darkening Laws. Getting Ultra-Precise Planetary Radii with PLATO: The Impact of Limb Darkening and Stellar Activity on Transit Light Curves, Online (2021)
Heller, R.: Habitability of early Earth:Liquid water under a faint young Sunand tidal heating due to a closer Moon. GeoKarlsruhe 2021: Sustainable Earth - from processes to resources, Online (2021)
Heller, R.: Earth-sized Transiting Planets in the Stellar Habitable ZonesFrom Kepler to PLATO. Virtual Annual meeting of the German Astronomical Society, Online (2021)
Heller, R.: Habitability of early Earth: Liquid water under a faint young Sun and tidal heating due to a closer Moon. General Meeting of the SPP 1833 "Building a Habitable Earth", online (2021)
Heller, R.: Challenges of Validating Earth-like Transiting Planets Around Sun-like Stars. Splinter session "Exploring the diversity of extrasolar planets”, Virtual Meeting of the German Astronomical Society (2020)
Images from ESA’s Solar Orbiter offer the best look yet at a source region of the solar wind - and challenge our view of the continuous particle stream from the Sun.
Deciphering the magnetic origins of the Sun's hot corona: developing a framework for coronal heating by probing the elusive photosphere-corona connection
Using unique observational data and computer simulations, the MPS scientist is striving to understand the incredibly hot temperatures in the solar corona.
For the first time, images of the Sun have been taken from a distance of only 77 million kilometres enabling a completely new view of our star possible.
In his doctoral thesis, Sudip Mandal investigated how special pressure waves help maintain temperatures of several million degrees in the outermost solar atmosphere.