The Collaborative Research Centre (CRC) 1667 “Advancing Technologies of Very Low Altitude Satellites (ATLAS)” addresses the fundamental scientific and engineering challenges of rendering Very Low Earth Orbit (VLEO, about 200 km to 450 km altitude) accessible. These orbits are particularly beneficial for indispensable satellite services of our modern knowledge, information and communication society. Additionally, access to VLEO offers the opportunity to operate satellites without exposure or contribution to the increasing contamination of traditional orbits with space debris. Attaining sustained and economically viable VLEO flight is challenging due to the unique environmental properties of the lower thermosphere. This is most notably the significant, barely predictable, and dynamically changing drag, which leads to a rapid deterioration of any spacecraft’s orbit unless mitigated by a combination of active and passive techniques. Thus, the various advantages of VLEO, including its self-cleaning effect through the residual atmosphere, are to date offset by a prohibitively short operational lifetime. The leading research question of the CRC ATLAS is therefore: How can the lifetime of a satellite in VLEO be increased by at least one order of magnitude without the necessity of large amounts of fuel carried or resupplied continuously from Earth? To answer this question, an advanced understanding of the interactions between rarefied high-energy flows and functional surfaces, innovations for collecting and utilising the residual atmosphere and novel concepts for designing and operating satellites in these conditions are essential. Within the CRC ATLAS, the basic principles and resulting technological concepts exploiting these findings and ultimately enabling VLEO utilisation will be investigated, established and verified. The scientific potentials of individual satellites, formations and constellations operating in this dynamic environment will be explored simultaneously, aligned to a multi-faceted VLEO reference mission scenario. The research programme is characterised by strong interdependencies and necessitates an intensive cooperation between various engineering disciplines that builds on the joint insight of processes at and across their interfaces to fully leverage synergies. The long-term goal is to provide the spaceflight community with the core elements in terms of methodology and technology to facilitate reliable studies and the development of concrete mission scenarios in VLEO. The CRC ATLAS is intended to constitute a profile-building measure at the University of Stuttgart with strong international charisma. Due to its broad research profile and heritage on the topic, and including its national and international scientific network, the University of Stuttgart is at an ideal position for implementing the most comprehensive coordinated research programme to date towards rendering VLEO accessible.

DFG Programme Collaborative Research Centres

• A01 - Gas-Surface Interactions Investigated by Atomistic Simulations (Project Heads Kästner, Johannes ;  Roth, Johannes )
• A02 - Aerodynamic Coefficients in Rarefied Flows: From Micro to Macro Scales (Project Heads Beck, Andrea D. ;  Pfeiffer, Marcel )
• A03 - Characterisation of Materials under Hyperthermal Conditions (Project Heads Fasoulas, Stefanos ;  Herdrich, Georg )
• A04 - Diagnostic Tools for Atomic Oxygen (Project Head Löhle, Stefan )
• A05 - Aerodynamic Attitude Control in VLEO: Design and Verification (Project Heads Cunis, Torbjørn ;  Fichter, Walter )
• A06 - Aerodynamic Orbit Control in VLEO: Planning and Optimisation (Project Head Fasoulas, Stefanos )
• B01 - Atmosphere-Breathing Electric Propulsion Technologies (Project Head Herdrich, Georg )
• B03 - Porous Structures as Atomic Oxygen Trap (Project Heads Flemisch, Bernd ;  Pfeiffer, Marcel ;  Schneider, Martin )
• B04 - Drag Mitigation and Attitude Control through Thermal Radiation (Project Heads Lamanna, Grazia ;  Poser, Rico )
• B05 - Large-Scale and Flexible Perovskite Solar Cells for VLEO Applications (Project Heads Essig, Stephanie ;  Saliba, Michael )
• B06 - Integrated Quantum Technologies for Satellite Applications (Project Head Barz, Stefanie )
• C01 - Fundamentals of VLEO Satellite Operations (Project Head Klinkner, Sabine )
• C02 - Laser Ranging and Laser-Based Attitude Determination (Project Heads Dekorsy, Thomas ;  Wagner, Gerd Achim )
• C03 - Extremely High Data Rate Communications (Project Head Kallfass, Ingmar )
• C04 - Models and Methods for a Self-Organising Distributed Computing Platform for Satellite Constellations (Project Head Annighöfer, Björn )
• C05 - Novel Concepts for Ranging, Precise Orbit and Attitude Determination of VLEO Satellites (Project Head Hobiger, Thomas )
• C06 - High-Fidelity Earth Gravity Field Mapping from VLEO Constellations (Project Head Sneeuw, Nico )
• INF - Data Management and Software Engineering (Project Heads Flemisch, Bernd ;  Löhle, Stefan )
• Z - Central CRC Administration and Coordination (Project Head Fasoulas, Stefanos )
• Ö - Public and Educational Outreach and Scientific Communication (Project Heads Fasoulas, Stefanos ;  Klinkner, Sabine )

Applicant Institution Universität Stuttgart

Participating Institution Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR); Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
Institut für Technische Physik

Spokesperson Professor Dr.-Ing. Stefanos Fasoulas