Science and Exploration

ALMA Telescope Reaches New Heights

By Keith Cowing
May 24, 2013
Filed under

The ALMA (Atacama Large Millimeter/submillimeter Array) astronomical observatory has taken another step forward — and upwards. One of its state-of-the-art antennas was carried for the first time to the 5,000-meter plateau of Chajnantor, in the Chilean Andes, on the back of a custom-built giant transporter.

The ALMA (Atacama Large Millimeter/submillimeter Array) astronomical observatory has taken another step forward — and upwards. One of its state-of-the-art antennas was carried for the first time to the 5,000-meter plateau of Chajnantor, in the Chilean Andes, on the back of a custom-built giant transporter.

The antenna, which weighs about 100 tons and has a diameter of 12 meters, was transported up to the high-altitude Array Operations Site, where the extremely dry and rarefied air is ideal for ALMA’s observations of the Universe.

The Science and Technology Facilities Council (STFC) is playing a key role in the project; earlier this year the first of 26 receiver systems that go inside the antennas and that are being assembled and tested at the STFC’s Rutherford Appleton Laboratory, was transported to Chile. This is a part of the UK’s major technical contribution to ALMA, which also includes supplying receiver cryogenics and components, and software. The receivers detect the extremely faint signals from space, making them vital components within the overall set-up.

The ALMA UK Project Manager, Professor Brian Ellison, said, “Transportation of the first of the ALMA antennas to the high-altitude observing site represents another significant step forward in the construction of this world-class telescope. It is a testament to the technical and engineering skill of all those involved in the ALMA Project that major milestones such as this transportation step are being achieved efficiently and effectively.”

The conditions at the Array Operations Site on Chajnantor, while excellent for astronomy, are also very harsh. Only half as much oxygen is available as at sea level, making it very difficult to work there. This is why ALMA’s antennas are assembled and tested at the lower 2,900-meter altitude of the ALMA Operations Support Facility. It was from this relatively hospitable base camp that the ALMA antenna began its journey to the high Chajnantor site.

The trip began when one of the two ALMA transporters, named Otto, lifted the antenna onto its back. It then carried its heavy load along the 28-kilometer road from the Operations Support Facility up to the Array Operations Site. While the transporter is capable of speeds of up to 12 km/hour when carrying an antenna, this first journey was made more slowly to ensure that everything worked as expected, taking about seven hours.

“This is an important moment for ALMA. We are very happy that the first transport of an antenna to the high site went flawlessly. This achievement was only possible through contributions from all international ALMA partners: this particular antenna is provided by Japan, the heavy-lift transporter by Europe, and the receiving electronics inside the antenna by North America, Europe, and Asia”, said Wolfgang Wild, European ALMA Project Manager.

The ALMA antennas are the most advanced submillimeter-wavelength antennas ever made. They are designed to operate fully exposed in the harsh conditions of the Array Operations Site. This means surviving strong winds and temperatures between +20 and -20 degrees Celsius whilst being able to point precisely enough that they could pick out a golf ball at a distance of 15 km, and to keep their smooth reflecting surfaces accurate to better than 25 micrometers (less than the typical thickness of a human hair).

An ALMA antenna en route from the Operations Support Facility to the plateau of Chajnantor for the first time. The ALMA transporter vehicle carefully carries the state-of-the-art antenna, with a diameter of 12 metres and a weight of about 100 tons, on the 28 km journey to the Array Operations Site, which is at an altitude of 5000 m. The antenna is designed to withstand the harsh conditions at the high site, where the extremely dry and rarefied air is ideal for ALMA’s observations of the universe at millimetre- and submillimetre-wavelengths.

Once the transporter reached the high plateau it carried the antenna to a concrete pad — a docking station with connections for power and fiber optics — and positioned it with an accuracy of a few millimeters. The transporter is guided by a laser steering system and, just like some cars today, also has ultrasonic collision detectors. These sensors ensure the safety of the state-of-the-art antennas as the transporter drives them across what will soon be a rather crowded plateau. Ultimately, ALMA will have at least 66 antennas distributed over about 200 pads, spread over distances of up to 18.5 km and operating as a single, giant telescope. Even when ALMA is fully operational, the transporters will be used to move the antennas between pads to reconfigure the telescope for different kinds of observations.

“Transporting our first antenna to the Chajnantor plateau is a epic feat which exemplifies the exciting times in which ALMA is living. Day after day, our global collaboration brings us closer to the birth of the most ambitious ground-based astronomical observatory in the world”, said Thijs de Graauw, ALMA Director.

This first ALMA antenna at the high site will soon be joined by others and the ALMA team looks forward to making their first observations from the Chajnantor plateau. They plan to link three antennas by early 2010, and to make the first scientific observations with ALMA in the second half of 2011.

ALMA will help astronomers answer important questions about our cosmic origins. The telescope will observe the Universe using light with millimeter and submillimeter wavelengths, between infrared light and radio waves in the electromagnetic spectrum. Light at these wavelengths comes from some of the coldest, but also from some of the most distant objects in the cosmos. These include cold clouds of gas and dust where new stars are being born and remote galaxies towards the edge of the observable universe. The Universe is relatively unexplored at submillimeter wavelengths, as the telescopes need extremely dry atmospheric conditions, such as those at Chajnantor, and advanced detector technology.

Notes to editors

The Atacama Large Millimeter/submillimeter Array (ALMA), an international astronomy facility, is a partnership of Europe, North America and East Asia in cooperation with the Republic of Chile. ESO is the European partner in ALMA. ALMA, the largest astronomical project in existence, is a revolutionary telescope, comprising an array of 66 giant 12-meter and 7-meter diameter antennas observing at millimeter and submillimeter wavelengths. ALMA will start scientific observations in 2011.

Images

An ALMA antenna arrives on the plateau of Chajnantor from the Operations Support Facility for the first time. The ALMA transporter vehicle carefully and precisely sets the state-of-the-art antenna, with a diameter of 12 metres and a weight of about 100 tons, onto a concrete foundation at the Array Operations Site, which is at an altitude of 5000 m. The antenna is designed to withstand the harsh conditions at the high site, where the extremely dry and rarefied air is ideal for ALMA’s observations of the universe at millimetre- and submillimetre-wavelengths.

Contacts:

Lucy Stone
Press Officer
Rutherford Appleton Laboratory
+44 (0)1235 445627
lucy.stone@stfc.ac.uk

Wolfgang Wild, European ALMA Project Manager
ESO, Garching, Germany
+49 160 9411 7833 (in EDT time zone, until 25 September)
+49 89 3200 6716 thereafter
wwild@eso.org

Douglas Pierce-Price
ESO, Garching, Germany
+49 89 3200 6759
dpiercep@eso.org

SpaceRef co-founder, Explorers Club Fellow, ex-NASA, Away Teams, Journalist, Space & Astrobiology, Lapsed climber.