Your search keyword '"Boulanger, Francois"' showing total 4 results

1. Measuring Reionization, Neutrino Mass, and Cosmic Inflation with BFORE.

Author

Bryan, Sean, Ade, Peter, Bond, J. Richard, Boulanger, Francois, Devlin, Mark, Doyle, Simon, Filippini, Jeffrey, Fissel, Laura, Groppi, Christopher, Holder, Gilbert, Hubmayr, Johannes, Mauskopf, Philip, McMahon, Jeffrey, Nagy, Johanna, Netterfield, C. Barth, Niemack, Michael, Novak, Giles, Pascale, Enzo, Pisano, Giampaolo, and Ruhl, John

Subjects

IONIZATION (Atomic physics), NEUTRINO mass, INFLATIONARY universe, COSMIC background radiation

Abstract

BFORE is a NASA high-altitude ultra-long-duration balloon mission proposed to measure the cosmic microwave background (CMB) across half the sky during a 28-day mid-latitude flight launched from Wanaka, New Zealand. With the unique access to large angular scales and high frequencies provided by the balloon platform, BFORE will significantly improve measurements of the optical depth to reionization τ, breaking parameter degeneracies needed for a measurement of neutrino mass with the CMB. The large-angular-scale data will enable BFORE to hunt for the large-scale gravitational wave B-mode signal, as well as the degree-scale signal, each at the r∼0.01 level. The balloon platform allows BFORE to map Galactic dust foregrounds at frequencies where they dominate, in order to robustly separate them from CMB signals measured by BFORE, in addition to complementing data from ground-based telescopes. The combination of frequencies will also lead to velocity measurements for thousands of galaxy clusters, as well as probing how star-forming galaxies populate dark matter halos. The mission will be the first near-space use of TES multichroic detectors (150/217 GHz and 280/353 GHz bands) using highly multiplexed mSQUID microwave readout, raising the technical readiness level of both technologies. [ABSTRACT FROM AUTHOR]

Published

2018

2. BFORE: The B-mode Foreground Experiment.

Author

Niemack, Michael, Ade, Peter, Bernardis, Francesco, Boulanger, Francois, Bryan, Sean, Devlin, Mark, Dunkley, Joanna, Eales, Steve, Gomez, Haley, Groppi, Chris, Henderson, Shawn, Hillbrand, Seth, Hubmayr, Johannes, Mauskopf, Philip, McMahon, Jeff, Miville-Deschênes, Marc-Antoine, Pascale, Enzo, Pisano, Giampaolo, Novak, Giles, and Scott, Douglas

Subjects

COSMIC background radiation, ATOMIC orbitals, GALAXY clusters, NUCLEAR counters, MAGNETIC fields, INTERSTELLAR medium

Abstract

The B-mode Foreground Experiment (BFORE) is a proposed NASA balloon project designed to make optimal use of the sub-orbital platform by concentrating on three dust foreground bands (270, 350, and 600 GHz) that complement ground-based cosmic microwave background (CMB) programs. BFORE will survey $$\sim $$ 1/4 of the sky with 1.7-3.7 arcminute resolution, enabling precise characterization of the Galactic dust that now limits constraints on inflation from CMB B-mode polarization measurements. In addition, BFORE's combination of frequency coverage, large survey area, and angular resolution enables science far beyond the critical goal of measuring foregrounds. BFORE will constrain the velocities of thousands of galaxy clusters, provide a new window on the cosmic infrared background, and probe magnetic fields in the interstellar medium. We review the BFORE science case, timeline, and instrument design, which is based on a compact off-axis telescope coupled to $${>}10,000$$ superconducting detectors. [ABSTRACT FROM AUTHOR]

Published

2016

3. A post-iras interstellar dust model.

Author

Araki, H., Ehlers, J., Hepp, K., Kippenhahn, R., Weidenmüller, H. A., Wess, J., Zittartz, J., Lawrence, Andrew, Desert, Francois-Xavier, Boulanger, Francois, and Pérault, Michel

Abstract

A composite interstellar dust model is built in order to understand the infrared colors of various astronomical objects including the low-density interstellar medium (HI, H2, and HII) in cirrus, reflection nebulae, and HII regions. Taking into account the various constraints on the different dust components, in particular coming from IRAS data, we show that a bimodal rather than continuous size distribution between small and big grains is the most favorable solution. [ABSTRACT FROM AUTHOR]

Published

1988

4. Molecular Hydrogen.

Author

Habart, Emilie, Walmsley, Malcolm, Verstraete, Laurent, Cazaux, Stephanie, Maiolino, Roberto, Cox, Pierre, Boulanger, Francois, and Des Forêts, Guillaume Pineau

Subjects

INTERSTELLAR medium, INTERSTELLAR hydrogen, INFRARED spectroscopy, INTERSTELLAR molecules, OORT Cloud, STAR formation, CIRCUMSTELLAR matter, GALAXIES

Abstract

Observations of H2 line emission in galactic and extragalactic environments obtained with the Infrared Space Observatory (ISO) are reviewed. The diagnostic capability of H2 observations is illustrated. We discuss what one has learned about such diverse astrophysical sources as photon-dominated regions, shocks, young stellar objects, planetary nebulae and starburst galaxies from ISO observations of H2 emission. In this context, we emphasise use of measured H2 line intensities to infer important physical quantities such as the gas temperature, gas density and radiation field and we discuss the different possible excitation mechanisms of H2. We also briefly consider future prospects for observation of H2 from space and from the ground. [ABSTRACT FROM AUTHOR]

Published

2005