The right way to Transfer the World’s Largest Digicam from a California Lab to an Andes Mountaintop

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The right way to Transfer the World’s Largest Digicam from a California Lab to an Andes Mountaintop

A multimillion-dollar digital digicam might revolutionize astronomy. However first it must climb a mountain midway across the globe

A employee shines a flashlight into the Vera C. Rubin Observatory’s digicam.

J. Ramseyer Orrell/SLAC Nationwide Accelerator Laboratory/NOIRLab (CC BY 4.0)

By late subsequent 12 months, if all goes to plan, the Vera C. Rubin Observatory can have began its 10-year survey of the photo voltaic system, Milky Approach and galaxies past. Its big eye on the southern skies is a 3.2-gigapixel digicam with the scale and weight of a small automotive. By mass and pixel decision, it’s the largest digital digicam on Earth. It should scan the cosmos from atop a mountain referred to as Cerro Pachón in northern Chile.

There is only one hitch: the fragile, practically three-metric-ton machine is at present some 10,000 kilometers away within the hills above San Francisco Bay, the place its builders have put it by way of closing checks. Within the coming weeks the exactly engineered digicam will start a tense intercontinental voyage through which it is going to be flown by cargo aircraft, hauled by truck and painstakingly escorted up twisty mountain roads.

The daunting logistics fall to members of an obscure however consequential engineering subfield devoted to preserving multimillion-dollar astronomy {hardware} intact in transit. That is “a very obvious and visible moment when things can go wrong,” says engineer Margaux Lopez of the Rubin Observatory and the SLAC Nationwide Accelerator Laboratory, who’s accountable for the trouble.


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The Rubin digicam’s journey begins in a clear room in Silicon Valley, the place SLAC will outfit the digicam with a steel-and-wire-rope exoskeleton. “It’s a frame sitting on springs on another frame, essentially,” says SLAC and Rubin engineer Martin Nordby. This protect will maintain the digicam tucked inside the confines of an ordinary transport container and defend its delicate innards from vibrations. Then, over two days in Might, SLAC personnel will drive the digicam’s container and 49 crates of apparatus to San Francisco Worldwide Airport, the place every little thing will likely be packed aboard a chartered Boeing 747 cargo aircraft for the 16-hour flight to the Arturo Merino Benítez Worldwide Airport in Santiago, Chile.

The Rubin workforce is comparatively fortunate: elements of different telescopes in growth, additionally sure for observatories underneath Chile’s exceptionally clear skies, should spend weeks touring at sea. When the Fred Younger Submillimeter Telescope sends its five-story-tall help construction—too giant to suit right into a freight plane—from Germany to Chile, it’s going to have to take action by way of break-bulk cargo ship by the use of Antwerp, Belgium.

The Extraordinarily Massive Telescope (ELT)’s big mirrors are taking the ocean route from Europe to Chile, too. “Historically…, we shipped mostly everything by plane, but with the new type of sizes we’re talking about with the ELT, planes either are not big enough or the costs are ridiculously high,” says Hervé Kurlandczyk, an engineer for the European Southern Observatory, who works on ELT and isn’t concerned with the Rubin venture.

Bodily harm is at all times a menace, regardless of the route or mode of transport. Astronomy, by design, requires among the most delicate parts on the earth. Something from bumps within the street to turbulence within the air can rattle delicate electronics or jostle painstakingly positioned elements out of alignment. Mirrors, together with Rubin’s items that arrived in Chile in 2019, could require refrigeration and humidity controls or danger harm to their coating.

Transit brings different attainable complications which are acquainted to anybody skilled in worldwide transport. Unhealthy climate and different snafus can redirect or stall transports. A number of years in the past miscommunication brought on the container ship carrying a part of the Simons Observatory to take a seat at anchor for 2 weeks off Chile, leaving observatory workers scratching their head in port. Even observatories have to clear customs, particularly when exiting the U.S.; astronomical devices made within the U.S. could, for instance, run into authorities export controls designed to maintain superior optical know-how inside the nation’s borders.

All these worries imply engineers strive “to control, as much as possible, every single step of the whole chain,” Kurlandczyk says. Though Santiago is on the opposite aspect of the equator from San Francisco, SLAC will proceed to supervise the digicam’s transit inside Chile. As soon as the 747 lands, its cargo will likely be loaded right into a caravan of 9 autos—every much like the curtain-side vans used to move drinks and outfitted with air-ride suspensions for added safety from vibrations. The caravan’s six-hour street journey to the bottom of Cerro Pachón will likely be a prelude to essentially the most arduous a part of the voyage: getting the digicam from the bottom of the mountain to the observatory atop one in every of its peaks.

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Rubin Observatory/NOIRLab/NSF/AURA/H. Stockebrand (CC BY 4.0)

This final leg will likely be a 35-kilometer journey up a winding snake of filth roads and switchbacks. It is going to be slender and threatening, and the observatory on the prime received’t have the ability to obtain a couple of truck at a time, so the method will take three days, with three vans per day. And the truck carrying the digicam itself, escorted in entrance and behind by observatory autos, will have the ability to journey no quicker than 10 kilometers per hour. Lopez says the digicam’s ascent will take 5 hours to make a visit that takes most different cargo about 90 minutes.

Lopez and her colleagues can take some consolation in the truth that they’ve already practiced virtually each step of the journey utilizing dummies with the identical mass because the telescope elements. They’ve loaded these weights into vans pushed up and down the freeways of the San Francisco Peninsula and alongside Chilean roads; they’ve even rehearsed the flight from California to Chile.

“Every time we handle something, it’s essentially the first time it’s ever been done,” Lopez says. “We’ve spent a lot of effort to figure out ways to practice these delicate procedures with something that is not as fragile before we do it with, you know, $25-million optics.”

Greater than 5 years of preparation have gone into the digicam’s six-day journey. “This has to work. It has to be successful. We cannot break anything along the way or lose anything or—pick your favorite failure mode,” Lopez says. “But we have a really solid logistics plan, and we’re ready to go.”

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