Add to ORKGResearchers present a study extending the correlation seen between radio continuum and far-infrared emissions from spiral galaxies to a lower frequency of 408 MHz and also as a function of radio spectral index. The tight correlation seen between the two luminosities is then used to constrain several parameters governing the emissions such as the changes in star formation rate and mass function, frequency of supernovae that are parents of the interstellar electrons and factors governing synchrotron radio emission
The infrared radio correlation has been reexamined for a sample of 237 optically bright spiral galax...
In this thesis I take a close look at the far-infrared radio - correlation, a puzzlingly persistent ...
Given the multiple energy loss mechanisms of cosmic ray electrons in galaxies, the tightness of the ...
A sample of 30 galaxies selected for their intense IRAS flux at 60 and 100 micron using the Arecibo ...
A very tight correlation was found between the radio emission and the far infrared emission from gal...
A comparison is made between the spatial distribution of the thermal far-infrared and non-thermal ra...
The tightness and universality of the far-infrared (FIR) to radio continuum (RC) correlation is stil...
none13The correlation between far-infrared and radio emission in galaxies is remarkably strong consi...
A comparison of the distributions of 60μm infrared and 20cm radio continuum emission within spiral g...
The radio and far-infrared luminosities of star-forming galaxies are tightly correlated over several...
The intrinsic thermal (free–free) and non-thermal (synchrotron) emission components that comprise th...
We use high resolution IRAS and 20 cm radio continuum (RC) images of a sample of 22 spiral galaxies ...
Using data obtained for twelve galaxies as part of the {\it Spitzer} Infrared Nearby Galaxies Survey...
We present the correlation between the far-infrared (FIR) and radio emissions from a composite samp...
We use the results of the SCUBA Local Universe Galaxy Survey, a submillimetre survey of galaxies in ...
The infrared radio correlation has been reexamined for a sample of 237 optically bright spiral galax...
In this thesis I take a close look at the far-infrared radio - correlation, a puzzlingly persistent ...
Given the multiple energy loss mechanisms of cosmic ray electrons in galaxies, the tightness of the ...
A sample of 30 galaxies selected for their intense IRAS flux at 60 and 100 micron using the Arecibo ...
A very tight correlation was found between the radio emission and the far infrared emission from gal...
A comparison is made between the spatial distribution of the thermal far-infrared and non-thermal ra...
The tightness and universality of the far-infrared (FIR) to radio continuum (RC) correlation is stil...
none13The correlation between far-infrared and radio emission in galaxies is remarkably strong consi...
A comparison of the distributions of 60μm infrared and 20cm radio continuum emission within spiral g...
The radio and far-infrared luminosities of star-forming galaxies are tightly correlated over several...
The intrinsic thermal (free–free) and non-thermal (synchrotron) emission components that comprise th...
We use high resolution IRAS and 20 cm radio continuum (RC) images of a sample of 22 spiral galaxies ...
Using data obtained for twelve galaxies as part of the {\it Spitzer} Infrared Nearby Galaxies Survey...
We present the correlation between the far-infrared (FIR) and radio emissions from a composite samp...
We use the results of the SCUBA Local Universe Galaxy Survey, a submillimetre survey of galaxies in ...
The infrared radio correlation has been reexamined for a sample of 237 optically bright spiral galax...
In this thesis I take a close look at the far-infrared radio - correlation, a puzzlingly persistent ...
Given the multiple energy loss mechanisms of cosmic ray electrons in galaxies, the tightness of the ...