Lennert Sprenger

Lennert Sprenger
Technische Universität Dresden | TUD · Physik

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2
Publications
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Citations since 2017
2 Research Items
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20172018201920202021202220230.00.51.01.52.0
20172018201920202021202220230.00.51.01.52.0

Publications

Publications (2)
Article
Full-text available
From the Cosmic Microwave Background CMB, the flatness problem and the horizon problem arose. An extraordinarily increase of distances in the early universe, the Cosmic Inflation, was proposed as a possible solution, whereby suggested mechanisms for such an increase have been criticized (Steinhard, 2011). We apply a theory that explains the Cosmic...
Article
Full-text available
Usually telescope based research on the big bang is performed by the application of huge telescopes like the Hubble-Space-Telescope. However, in our work we propose three methods for the big bang observation, which are applied with an 11 inch telescope in our school observatory. The first method is based on the redshift. We are using the redshift t...

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Projects

Project (1)
Project
The goal of the project is to combine quantum physics, gravity and general relativity. Additionally, that combination is tested by comparisons with observations, thereby only three numerical inputs are used: the three fundamental constants of nature, the gravitational constant G, the velocity c of light and the Planck constant h. Moreover, various problems of physics are solved, and measurable predictions are obtained (see Carmesin, Hans – Otto (2018) Entstehung der Raumzeit durch Quantengravitation, Theory for the Emergence of Space, Dark Matter, Dark Energy and Space-Time. Berlin: Verlag Dr. Köster). Firstly, the era of cosmic inflation has been explained, the problems of the horizon and of the flatness are solved and the problem of Reheating is avoided (see Carmesin, Hans – Otto (2017) Vom Big Bang bis heute – Model for the Dynamics of Space. Berlin: Verlag Dr. Köster. Carmesin, Hans – Otto (May 2018) Entstehung dunkler Materie durch Gravitation – Model for the Dynamics of Space and the Emergence of Dark Matter. Berlin: Verlag Dr. Köster. Carmesin, Hans – Otto (November 2018) Entstehung der Raumzeit durch Quantengravitation, Theory for the Emergence of Space, Dark Matter, Dark Energy and Space-Time. Berlin: Verlag Dr. Köster). Secondly, the formation of dark matter has been modeled (see Carmesin, Hans – Otto (May 2018) Entstehung dunkler Materie durch Gravitation – Model for the Dynamics of Space and the Emergence of Dark Matter. Berlin: Verlag Dr. Köster. Carmesin, Hans – Otto (November 2018) Entstehung der Raumzeit durch Quantengravitation, Theory for the Emergence of Space, Dark Matter, Dark Energy and Space-Time. Berlin: Verlag Dr. Köster). Thirdly, the formation of dark energy has been modeled. Thereby, the problem of different measured Hubble constants is solved (see Carmesin, Hans – Otto (July 2018) Entstehung dunkler Energie durch Quantengravitation – Universal Model for the Dynamics of Space, Dark matter and Dark Energy. Berlin: Verlag Dr. Köster. Carmesin, Hans – Otto (November 2018) Entstehung der Raumzeit durch Quantengravitation, Theory for the Emergence of Space, Dark Matter, Dark Energy and Space-Time. Berlin: Verlag Dr. Köster).