 You know, superficially exoplanets and the transmission of disease have absolutely nothing to do with each other at first glance. But I think what I find so beautiful about the physical sciences is that the language of nature is mathematics at the end of the day. And it is the mathematical equations that we write down that describe fundamentally how nature behaves. The beautiful thing is that there is, of course, a certain range for the field of astrophysics that everyone is interested in. But the beautiful thing is that we are actually closer than we think. So I myself also come from the field of natural sciences, so I studied biology. And that's just how we think and the method we use is very confusing. Very similar to the ones that describe how chemistry happens in the atmospheres of exoplanets. If you really try to grow here, other institutes and faculties are also interested in it. It is certainly interesting that at the University of Bern there is a platform that has a strong focus on data and also on the expertise to deal with data. It is also a model-based simulation, because we do this in epidemiology and our colleagues in astrophysics. Exoplanets seem to share common technical methods. So maybe other fields do have the same relationship with these two fields too. And I find this very exciting because then you can get in the room researchers who normally do not talk to each other, who have no relationship with each other. And now they realize that they have a relationship through the underlying language of science, which is mathematics and statistics.