Add to ORKGThe Survey of Water and Ammonia in Nearby galaxies (SWAN) studies atomic and molecular species across the nuclei of four star-forming galaxies: NGC 253, IC 342, NGC 6946, and NGC 2146. As part of this survey, we present Karl G. Jansky Very Large Array molecular line observations of three galaxies: IC 342, NGC 6946, and NGC 2146. NGC 253 is covered in a previous paper. These galaxies were chosen to span an order of magnitude in star formation rates and to select a variety of galaxy types. We target the metastable transitions of ammonia NH3(1, 1) to (5, 5), the 22 GHz water (H2O) (616-523) transition, and the 36.1 GHz methanol (CH3OH) (4-1-30) transition. We use the NH3 metastable lines to perform thermometry of the dense molecular gas. We sh...
The region centered in the NGC 6334 I(N) radio continuum source was surveyed in an extension of 6 ar...
Aims. We study the chemical complexity towards the central parts of the starburst galaxy M 82, and i...
Aims.The massive twin cores NGC 6334I and I(N) are in different evolutionary stages and hence ideal...
The detection of NH3 inversion lines up to the (J,K) = (6,6) level is reported toward the central re...
We present interferometric maps of ammonia within the cores of a sample of eight prominent, southe...
Context. The central few 100 pc of galaxies often contain large amounts of molecular gas. The chemic...
We present interferometric maps of ammonia (NH3) of the nearby starburst galaxy NGC 253. The obser...
The energy and momentum injected into the ISM from stars has a drastic effect on the star formation ...
With a goal toward deriving the physical conditions in external galaxies, we have conducted a survey...
Molecular line observations of NH3 (J ; K) ¼ (1; 1) and (2, 2) and CH3OH at 24.93 GHz taken with the...
Aims: We study the chemical complexity towards the central parts of the starburst galaxy M 82, and i...
The (J,K) = (1,1), (2,2), (3,3), and (4,4) inversion lines of ammonia (NH3) have been detected towar...
Studying the molecular phase of the interstellar medium in galaxy nuclei is fundamental for the unde...
[[abstract]]We present the first interferometric detection of extragalactic NH3 (6, 6) emission in t...
We present the detection of the ammonia (NH3) (J,K)=(1,1) to (4,4) and (6,6) inversion l...
The region centered in the NGC 6334 I(N) radio continuum source was surveyed in an extension of 6 ar...
Aims. We study the chemical complexity towards the central parts of the starburst galaxy M 82, and i...
Aims.The massive twin cores NGC 6334I and I(N) are in different evolutionary stages and hence ideal...
The detection of NH3 inversion lines up to the (J,K) = (6,6) level is reported toward the central re...
We present interferometric maps of ammonia within the cores of a sample of eight prominent, southe...
Context. The central few 100 pc of galaxies often contain large amounts of molecular gas. The chemic...
We present interferometric maps of ammonia (NH3) of the nearby starburst galaxy NGC 253. The obser...
The energy and momentum injected into the ISM from stars has a drastic effect on the star formation ...
With a goal toward deriving the physical conditions in external galaxies, we have conducted a survey...
Molecular line observations of NH3 (J ; K) ¼ (1; 1) and (2, 2) and CH3OH at 24.93 GHz taken with the...
Aims: We study the chemical complexity towards the central parts of the starburst galaxy M 82, and i...
The (J,K) = (1,1), (2,2), (3,3), and (4,4) inversion lines of ammonia (NH3) have been detected towar...
Studying the molecular phase of the interstellar medium in galaxy nuclei is fundamental for the unde...
[[abstract]]We present the first interferometric detection of extragalactic NH3 (6, 6) emission in t...
We present the detection of the ammonia (NH3) (J,K)=(1,1) to (4,4) and (6,6) inversion l...
The region centered in the NGC 6334 I(N) radio continuum source was surveyed in an extension of 6 ar...
Aims. We study the chemical complexity towards the central parts of the starburst galaxy M 82, and i...
Aims.The massive twin cores NGC 6334I and I(N) are in different evolutionary stages and hence ideal...