Mainz-Frankfurt-Münster CosmoCoffee

Thursday 11 Jan 2024, 08:00 → 21:30 Europe/Zurich

2413/2-430 - MITP Seminar Room (MITP - Mainz Institute for Theoretical Physics, Johannes Gutenberg University Mainz)

Laura Sagunski (chair), Julia Harz, Philipp Schicho (Goethe University Frankfurt), Daniel Schmitt (Goethe University, Frankfurt), Kai Schmitz (Westfaelische Wilhelms-Universitaet Muenster (DE)), Pedro Schwaller, Carlos Tamarit (Johannes Gutenberg University of Mainz)

We are happy to announce that the fourth Mainz-Frankfurt-Münster CosmoCoffee workshop will take place on 11th January 2024 from 10:30 am to 5:30 pm at Mainz University.

The goal of the Mainz-Frankfurt-Münster CosmoCoffee is to bring together the researchers from Johannes Gutenberg University Mainz, Goethe University Frankfurt, and Münster University working on cosmology and enhance future exchange. 
The program will include a plenary talk by Bogumiła Świeżewska (Warsaw University) and parallel talks (~20 mins).

We will close the workshop with a common dinner at "Im Herzen Afrikas" starting at 6.30 pm.

 
For the registration for our Mainz-Frankfurt-Münster CosmoCoffee workshop, please sign up until 10th January 2024 at 11.59 pm.

We’re looking forward to seeing you there! 

09:35 → 10:30 Coffee and Snacks

10:30 → 10:45 Welcome

Speaker: Philipp Schicho (Goethe University Frankfurt)

10:45 → 11:30 Improved precision for gravitational waves from scale symmetry breaking: how to supercool at high temperature?

This talk will discuss various aspects of predicting gravitational-wave signals from supercooled first-order phase transitions in models with classical scale invariance. Motivated by great prospects for observation of such a gravitational-wave signal, and by the consequent opportunities for reconstructing the parameters of the phase transition and the underlying model, I will present the route to improved accuracy in formulating theoretical predictions. I will explain how to employ the high-temperature effective field theory approach for studying supercooled phase transitions and compare the resulting predictions with those obtained with the common daisy-resummed potential.

Speaker: Bogumila Swiezewska (University of Warsaw)

11:30 → 12:00 Break

12:00 → 13:30 Lunch Break

13:30 → 14:00 Effective Field Theory Approach to Binary Systems in Scalar-Tensor Theories

Theories beyond General Relativity typically contain at least one additional scalar degree of freedom, which effectively mediates an additional force. While this force must be highly suppressed in low-density environments--in order to pass current constraints--it generically leads to deviations from General Relativity in high-density / high-curvature environments, such as neutron stars and black holes, and thus impacts their observables. I will discuss how binary systems in scalar-tensor theories can be treated using an effective field theory approach and present results regarding observables such as the energy loss and the gravitational wave spectrum.

Speaker: Robin Fynn Diedrichs (Goethe University Frankfurt)

robin_eft.pdf

14:00 → 14:30 Constraining f(R) Gravity with Modified Period Shifts in Pulsar Systems

Because of their high compactness and capability to bear dark charges neutron stars are very interesting objects when it comes to searching for deviations from general relativity. This is enabled by many observations of pulsar systems with astonishing precision in recent years. With these a general constraint on the parameters of f(R) theories can be calculated with a moderate numerical effort.

Speaker: Yannik Schaper

14:30 → 15:00 Break

15:00 → 15:30 Gravitational Waves from Low-Scale Cosmic Strings

In this talk, I will discuss the effect of very low cosmic string tensions on the associated stochastic gravitational wave background. I will show that the gravitational wave spectrum is qualitatively different from the one produced by cosmic strings with larger tensions. In fact, it exhibits a very distinct oscillatory feature with dips in the amplitude at multiples of the frequency of the first dip. This feature arises if none of the cosmic string loops chopped off from the long-string network have fully decayed yet. Despite the low tensions, such an SGWB would be measurable in future experiments.

Speaker: Tobias Schröder (University of Münster)

15:30 → 16:00 All you need to know about Primordial Black Holes

In this presentation, I will elucidate the mechanisms behind Primordial Black Hole formation, discuss their potential role as candidates for dark matter, explore their significance as gravitational wave sources, and delve into the methodologies employed for their detection.

Speaker: Encieh Erfani (IASBS, Zanjan, Iran)

16:00 → 16:30 Break

16:30 → 17:00 Impact of higher-dimensional operators on Low-Scale Leptogenesis

The addition of right-handed neutrinos to the SM can simultaneously solve the problems of neutrino masses and the observed baryon asymmetry of the universe. Moreover, their presence can lead to new experimental observations, like neutrinoless double beta decay. I showcase ongoing research that explores the impact of higher-dimensional operators on the aforementioned phenomena.

Speaker: Sascha Weber (Johannes Gutenberg-Universität Mainz)

17:00 → 17:30 Revisiting isocurvature perturbations

Isocurvature perturbations, despite being strongly constrained by current CMB data, enjoy continuing popularity in recent publications.
Nonetheless, the nature of isocurvature perturbations is neglected in many textbooks. There are not few who have little idea about it.
In this talk, we will revisit isocurvature by starting from the basic definition. We have a new perspective on the evolution of isocurvature modes in the long-wavelength limit, how they mix and behave in more complicated cosmic histories. We will have a first glimpse at the effect on the CMB and on popular cosmological tensions.

Speaker: Christopher Gerlach

18:30 → 20:30 Common dinner