Add to ORKGThe distribution of the atomic and ionized hydrogen along the inner spiral arms of M51 are compared. As is the case in M83, the location of both these phases of the interstellar medium with respect to the major dust lanes suggests that molecular hydrogen is dissociated on kpc scales in active star-forming regions, and that this dissociation process may strongly affect the observed morphology of atomic hydrogen in spiral arms
Here, we present the cloud population extracted from M51, following the application of our new high-...
[Abridged] The Owens Valley mm-Array has been used to map the CO 1--0 emission in the inner 2'.5 of ...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
The atomic hydrogen (H I) and the H-alpha emission lines in the grand-design spiral galaxy M51 have ...
Researchers derive the star formation rate and efficiency in the arm and interarm regions of M51 fro...
H I, infrared, CO, H alpha and beta band observations of M51, the prototypical grand-design spiral g...
We present high-resolution observations of the atomic hydrogen (H I) and Hbeta emission lines in the...
We compare the detailed distributions of HI, H alpha, and 150 nm far-UV continuum emission in the sp...
We have studied the distribution of ionized, molecular, and atomic hydrogen in the disk and especial...
We have compared the molecular, neutral and ionized hydrogen distributions in two nearby spiral gala...
New spectroscopic observations of the ionized gas (Halpha and [N II] lines) in M51 are combined with...
We study star formation processes in the disc of the weakly barred grand design spiral galaxy M100 (...
New spectroscopic observations of the ionized gas (Halpha and [N II] lines) in M51 are combined with...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
Here, we present the cloud population extracted from M51, following the application of our new high-...
[Abridged] The Owens Valley mm-Array has been used to map the CO 1--0 emission in the inner 2'.5 of ...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
The atomic hydrogen (H I) and the H-alpha emission lines in the grand-design spiral galaxy M51 have ...
Researchers derive the star formation rate and efficiency in the arm and interarm regions of M51 fro...
H I, infrared, CO, H alpha and beta band observations of M51, the prototypical grand-design spiral g...
We present high-resolution observations of the atomic hydrogen (H I) and Hbeta emission lines in the...
We compare the detailed distributions of HI, H alpha, and 150 nm far-UV continuum emission in the sp...
We have studied the distribution of ionized, molecular, and atomic hydrogen in the disk and especial...
We have compared the molecular, neutral and ionized hydrogen distributions in two nearby spiral gala...
New spectroscopic observations of the ionized gas (Halpha and [N II] lines) in M51 are combined with...
We study star formation processes in the disc of the weakly barred grand design spiral galaxy M100 (...
New spectroscopic observations of the ionized gas (Halpha and [N II] lines) in M51 are combined with...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...
Here, we present the cloud population extracted from M51, following the application of our new high-...
[Abridged] The Owens Valley mm-Array has been used to map the CO 1--0 emission in the inner 2'.5 of ...
Two selected regions in the molecular gas spiral arms in M51 were mapped with the Owens Valley Radio...