An optical image of the radio galaxy PKS
B1740-517, made with the Gemini South telescope. The galaxy is indicated
by the green tick marks, which show the location of the slit used to
obtain a spectrum of this object. This galaxy has a black hole at its
centre: jets flowing away from that create the strong radio source
detected with ASKAP.
Credit: M. Whiting (CSIRO) from Gemini South data
A wisp of cosmic radio waves, emitted before
our solar system was born, shows that a new radio telescope will be able
to detect galaxies other telescopes can’t. The work, led by Dr James
Allison of the Commonwealth Scientific and Industrial Research
Organisation (CSIRO) in Australia, was announced today (6 July) at the
National Astronomy Meeting in Llandudno, north Wales.
The finding was one of the first made with CSIRO’s Australian Square
Kilometre Array Pathfinder (ASKAP), a new radio telescope 300 kilometres
inland from the Western Australian town of Geraldton.
The discovery team, which included astronomers from the University of
Sydney and the Australian Research Council’s Centre of Excellence for
All-sky Astrophysics (CAASTRO), worked with just six of ASKAP’s 36 radio
dishes, a subset being used to commission the telescope.
Coming from the galaxy PKS B1740-517 in the direction of the southern
constellation of Ara, the radio signal had travelled through space for
five billion years before being captured.
It carries the ‘imprint’ of cold hydrogen gas that it passed through
on its way here. Cold hydrogen gas is the raw material for forming stars
and is plentiful in most galaxies. Astronomers can spot a galaxy from
its hydrogen gas even when its starlight is faint or hidden by dust.
The newly found signal is small but has big implications. “This catch
shows we’re going to bag a big haul of galaxies,” said Dr Allison.
Although tiny, the signal stood out clearly in the ASKAP data. Many
radio telescopes are bedevilled by ‘radio interference’—unwanted signals
that clutter up the spectrum. “That makes looking for this kind of
signal like hunting for a small fish in a bed of seaweed,” Dr Allison
said. But ASKAP’s site is exceptionally ‘radio quiet’. “Here we look
through clear water to find the fish.”
ASKAP also gives
astronomers a very large ‘net’ with which to trawl for signals—a chunk
of radio spectrum to search through that’s 300 MHz wide. “That’s more
than most telescopes have, and it gives us a better chance of finding
something new,” Dr Allison said.
Professor Elaine Sadler, Professor of Astrophysics at the University
of Sydney and Director of the ARC Centre of Excellence for All-sky
Astrophysics (CAASTRO), was a member of the research team for this
project. She leads a large ASKAP survey, now in the planning stage,
that’s aimed at detecting several hundred galaxies.
“ASKAP looks at a relatively unexplored part of the radio spectrum,
700 to 1800 megahertz,” she said. “This means we’ll be able to detect
hydrogen gas deeper in space and, thanks to ASKAP’s wide field of view,
also over a much larger volume than we could before. We’ll be hunting
for galaxies that are five to eight billion years old, a timespan that
represents a fifth of the Universe’s history.”
Ten billion years ago, galaxies were making stars ten times faster
than they do today. By studying galaxies five to eight billion years
old, astronomers hope to understand why the rate dropped.
“We want to learn how much hydrogen galaxies had in this period for
forming stars,” Professor Sadler said. “Until now we’ve had few tools
for doing that.”
Professor Sadler’s new survey is called ‘FLASH’, which stands for
‘the first large absorption survey in HI’ (HI being cold atomic hydrogen
gas). A pilot survey for FLASH will begin on ASKAP next year.
Story Source:
The above post is reprinted from
materials provided by
Royal Astronomical Society (RAS).
Note: Materials may be edited for content and length.
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