The National Science Foundation has awarded a team of scientists $5.8 million to design and mount a supersensitive antenna at the focal point of the Arecibo Observatory鈥檚 1,000-foot-diameter dish, which is managed by the 麻豆原创. The antenna, called a phased-array feed, will increase the telescope’s observation capabilities 500 percent.
The team, led by Brigham Young University engineering professors Brian Jeffs and Karl Warnick, includes collaborators at 麻豆原创 and Cornell University. 麻豆原创 and its partners have managed the facility since April when the team won a bid from the NSF to run the site.
鈥淲e already have one of the most powerful telescopes on the planet, and with this award we will be able to do even more,鈥 said Francisco Cordova, Arecibo site director and an engineer. 鈥淲e are very excited with the award to fund the new ALPACA 聽(Advanced Cryogenic L-Band Phased Array Camera for Arecibo) receiver at the Arecibo Observatory. This receiver, which is the next generation of our most-used receiver will be able to increase the survey speed by a factor of five. The receiver will accelerate research in gravitational waves, Fast Radio Bursts,聽dark matter and pulsar surveys, ensuring that AO continues to be at the forefront of radio astronomy for years to come.鈥
Cordova has been working with BYU for months to prepare the NSF proposal. Jeffs and Warnick are considered the world鈥檚 foremost experts in phased-array feeds and are familiar with Arecibo. Nine years ago, they installed a gold-plated array of many small antennas at Arecibo that increased the surveying ability of the telescope from one beam of radio waves to seven beams. The new NSF-sponsored phased-array feed will have 166 antennas and will increase the field of view of the telescope to 40 beams, providing much smoother and continuous coverage of the sky than conventional receivers. The new array is scheduled to be installed by 2022.
鈥淲e鈥檙e taking the most sensitive radio telescope in the world and opening it up so that it can view a larger part of the sky at one time,鈥 Warnick said. 鈥淭here鈥檚 a lot of things in space you can see with an optical camera, but you can see even more with a radio telescope.鈥
One scientific objective of the new feed will be tracking new pulsars 鈥 especially millisecond pulsars that help signal the presence of gravity waves. Albert Einstein predicted the existence of gravity waves in 1916, but scientists just detected them a few years ago. Gravitational waves are聽produced by catastrophic events, such as two colliding black holes, and they cause ripples in the fabric of space-time.
The phased-array feed will also search for extra-terrestrial intelligence, detect Fast Radio Bursts and conduct surveys to help unravel the mystery of dark matter in the universe.
鈥淓very galaxy in the universe has an invisible cloud of dark matter around it that we don鈥檛 yet understand,鈥 Warnick said. 鈥淭his will help solve one of the mysteries of the universe.鈥
Arecibo, which was built in the 1960s, has been making headlines recently for its contributions to major space science news. It helped confirm gravitational waves and FRBs. Just last month, it was used by a team from Switzerland to confirm some of Einstein鈥檚 theories. Scientists from around the world use the facility鈥檚 powerful instruments to study everything from pulsars and dark matter to solar weather, and NASA uses it to study asteroids. The upgrade will benefit all the work being done at Arecibo and help scientists understand the cosmos.
麻豆原创 is leading the consortium that includes Universidad Metropolitana in Puerto Rico and Yang Enterprises Inc. based in Oviedo, Florida, in managing the NSF facility. The facility, which was damaged when Hurricane Maria hit Puerto Rico last year, opened quickly after the storm. Emergency repairs that needed immediate attention, such as patching roofs and repairing electrical feeds, have been underway since May after the site received hurricane-relief funding. Additional repairs that will require more time and expertise will be completed as soon as possible.