We present a numerical study on the behavior of the density power spectrum resulting from compressible hydrodynamic, thermally unstable simulations with different rms Mach numbers Mrms. We find that the spectrum becomes shallower as M increases and that spectral index values that are consistent with those reported from observations
We present exploratory tests of a new optical method which measures directly two components of the 3...
International audienceInterstellar scintillation and angular radio wave broadening measurements show...
We investigate the core mass distribution (CMD) resulting from numerical models of turbulent fragmen...
Turbulent flows are ubiquitous in astrophysical environments, and understanding density structures a...
The density variance-Mach number relation of the turbulent interstellar medium is relevant for theor...
We analyze the spectral properties of driven, supersonic compressible magnetohydrodynamic (MHD) turb...
Compressible turbulence shapes the structure of the interstellar medium of our Galaxy and likely pla...
Interstellar scintillation and angular radio wave broadening measurements show that interstellar and...
Interstellar scintillation and angular radio wave broadening measurements show that interstellar and...
Supersonic flows in the interstellar medium (ISM) are believed to be a key driver of the molecular c...
Turbulence simulations of a hydrodynamic fluid are performed to explore various nonlinear aspects of...
An extensive investigation of velocity fluctuation spectra has been performed in the weakly compress...
In this paper anewanalytical approximation, concerning the integral J~4>WT(P) dp in the spectral ...
We present exploratory tests of a new optical method which measures directly two components of the 3...
We present exploratory tests of a new optical method which measures directly two components of the 3...
We present exploratory tests of a new optical method which measures directly two components of the 3...
International audienceInterstellar scintillation and angular radio wave broadening measurements show...
We investigate the core mass distribution (CMD) resulting from numerical models of turbulent fragmen...
Turbulent flows are ubiquitous in astrophysical environments, and understanding density structures a...
The density variance-Mach number relation of the turbulent interstellar medium is relevant for theor...
We analyze the spectral properties of driven, supersonic compressible magnetohydrodynamic (MHD) turb...
Compressible turbulence shapes the structure of the interstellar medium of our Galaxy and likely pla...
Interstellar scintillation and angular radio wave broadening measurements show that interstellar and...
Interstellar scintillation and angular radio wave broadening measurements show that interstellar and...
Supersonic flows in the interstellar medium (ISM) are believed to be a key driver of the molecular c...
Turbulence simulations of a hydrodynamic fluid are performed to explore various nonlinear aspects of...
An extensive investigation of velocity fluctuation spectra has been performed in the weakly compress...
In this paper anewanalytical approximation, concerning the integral J~4>WT(P) dp in the spectral ...
We present exploratory tests of a new optical method which measures directly two components of the 3...
We present exploratory tests of a new optical method which measures directly two components of the 3...
We present exploratory tests of a new optical method which measures directly two components of the 3...
International audienceInterstellar scintillation and angular radio wave broadening measurements show...
We investigate the core mass distribution (CMD) resulting from numerical models of turbulent fragmen...
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