PIRSA:14120008

Search for hidden turbulent gas through interstellar scintillation

APA

Moniez, M. (2014). Search for hidden turbulent gas through interstellar scintillation. Perimeter Institute. https://pirsa.org/14120008

MLA

Moniez, Marc. Search for hidden turbulent gas through interstellar scintillation. Perimeter Institute, Dec. 09, 2014, https://pirsa.org/14120008

BibTex

          @misc{ pirsa_PIRSA:14120008,
            doi = {10.48660/14120008},
            url = {https://pirsa.org/14120008},
            author = {Moniez, Marc},
            keywords = {Cosmology},
            language = {en},
            title = {Search for hidden turbulent gas through interstellar scintillation},
            publisher = {Perimeter Institute},
            year = {2014},
            month = {dec},
            note = {PIRSA:14120008 see, \url{https://pirsa.org}}
          }
          

Marc Moniez

University of Paris-Saclay

Talk number
PIRSA:14120008
Talk Type
Subject
Abstract

We propose a new way to search for (hidden) cool molecular hydrogen H2 in the Galaxy through diffractive and refractive effects: Stars twinkle because their light crosses the atmosphere. The same phenomenon is expected on a longer time scale when the light of a remote star crosses an interstellar turbulent molecular cloud, but it has never been observed at optical wavelengths. Our simulations and test observations show that in favorable cases, the light of a background star can be subject to stochastic fluctuations on the order of a few percent at a characteristic time scale of a few minutes.

We  searched for scintillation caused by molecular gas within visible dark nebulae as well as by hypothetical halo clumpuscules of cool molecular hydrogen (H2-He) with the ESO-NTT telescope. Within a few thousands of densely sampled light-curves, we found one candidate that shows variabilities compatible with a strong scintillation effect through a turbulent structure of the B68 nebula. Furthermore, since no candidate has been found toward the SMC, we were also able to establish upper limits on the contribution of gas clumpuscules to the Galactic halo mass.

I will discuss the perspectives of synchronized observations with two large distant telescopes, to observe the time decorrelation between the light curves, an undisputable signature of the scintillation process. I will then show that a few nights of observation using the so-called « movie-mode » of LSST should allow one to significantly constrain the last unknown baryonic contribution to the Galactic mass.