Space

Stop-and-Start Young Radio Jets Detected From Galaxy 500 Million Light-Years From Earth

Galaxy's Young Jets

Multi-frequency composite VLBA image of the galaxy TXS 0128+554, 500 million light-years from Earth. The image shows young radio jets originating near a supermassive black hole at the core of the galaxy. The jets in this image started about 80 years ago, stopped, then resumed about 10 years ago. Credit: Lister et al.; Sophia Dagnello, NRAO/AUI/NSF

Very long baseline array reveals object’s history.

In this image, made with the National Science Foundation’s Very Long Baseline Array (VLBA), young, radio-emitting jets of material emerge from the core of an elliptical galaxy some 500 million light-years from Earth. After NASA’s Fermi Gamma-ray Space Telescope detected high-energy gamma rays coming from the object, scientists used the VLBA to make high-resolution images of the galaxy, dubbed TXS 0128+554.

This image is a composite of six VLBA images made at observing frequencies ranging from 2.2 GigaHertz (GHz) to 22.2 GHz. The broad lobes on either side of the bright core are the result of jet activity that began roughly 80 years ago. The gap between these lobes and the central region indicates, the scientists said, that the jet activity stopped sometime after that, then resumed about 10 years ago.

Animated sequence of VLBA images of the galaxy TXS 0128+554, indicating the radio frequency at which the image was made. Higher observing frequencies produce higher resolution, showing smaller details. Credit: Lister et al.: Sophia Dagnello, NRAO/AUI/NSF.

“These are among the youngest known jets in such systems, and only a handful are known to emit gamma-rays,” said Matthew Lister, of Purdue University.

The bright edges of the lobes are where the ejected material, moving at about a third the speed of light, impacted material within the galaxy. The bright emitting areas total about 35 light-years across, and are at the core of the galaxy, where a supermassive black hole about one million times the mass of the Sun resides.

Lister and his colleagues are reporting their findings in the Astrophysical Journal.

Animated sequence (with labels) of VLBA images of the galaxy TXS 0128+554, indicating the radio frequency at which the image was made. Higher observing frequencies produce higher resolution, showing smaller details. Credit: Lister et al.; Sophia Dagenello, NRAO/AUI/NSF

To learn more about this research, read NASA Missions Explore a “TIE Fighter” Active Galaxy Far, Far Away.

Reference: “TXS 0128+554: A Young Gamma-Ray-emitting Active Galactic Nucleus with Episodic Jet Activity” by M. L. Lister, D. C. Homan, Y. Y. Kovalev, S. Mandal, A. B. Pushkarev and A. Siemiginowska, 25 August 2020, Astrophysical Journal.
DOI: 10.3847/1538-4357/aba18d

The National Radio Astronomy Observatory is a facility of the National Science Foundation, operated under cooperative agreement by Associated Universities, Inc.

Share
By
National Radio Astronomy Observatory

Recent Posts

Anti-Tumor Effects Without Toxicities: Researchers Use a Spice To Treat Cancer

Prodrug curcumin displays clinical potential.  In cancer clinical studies, curcumin, a natural molecule related to…

December 7, 2022

Earth’s Oldest Stromatolites and New Prospects for the Search for Life on Mars

Advanced 2D-3D insights into Earth's oldest stromatolites. The oldest morphological traces of life on Earth…

December 7, 2022

Cervical Cancer Breakthrough: Major New Clue to Better Understanding the Disease

As part of the biggest omics study of its type, researchers at the University College…

December 7, 2022

Construction Started on the Biggest Radio Observatory in Earth’s History – Could Uncover Early Signs of Life in the Universe

Construction of the world’s biggest radio astronomy facility, the Square Kilometer Array Observatory (SKAO), began…

December 7, 2022

NASA Artemis I – Flight Day 21: Orion Spacecraft Leaves Lunar Sphere of Influence, Heads for Home

On Flight Day 21 of the Artemis I mission, Orion exited the lunar sphere of…

December 7, 2022

Seismic Waves Reveal Surprising New Information About Mars

Researchers have observed seismic waves traveling throughout the surface of a planet other than Earth…

December 6, 2022