Posted on 01/16/2017 12:22:48 PM PST by doug from upland
Tiny gravity sensor could detect drug tunnels, mineral deposits
By Sid PerkinsMar. 30, 2016 , 1:00 PM
A new device the size of a postage stamp can detect 1-part-per-billion changes in Earths gravitational fieldequivalent to what the gizmo would experience if it were lifted a mere 3 millimeters. The technology may become so cheap and portable it could one day be mounted on drones to spot everything from hidden drug tunnels to valuable mineral deposits.
Gravitys force is nearly the same everywhere on Earth. But there can be minute fluctuations, based on the density of the rock or other material below. Distance from Earths core, which varies according to altitude, also affects the magnitude of our planets gravitational attraction.
Most devices that measure these gravitational differences, called gravimeters, are based on two principles: They either measure the time it takes an object to fall a certain distance, or they measure the distance that a certain weight stretches a spring. (The stronger the force of gravity, the faster an object will fall, and the farther it will stretch a mass hanging by a spring.) In either case, state-of-the-art gravimeters cost more than $100,000 and are the size and weight of a car battery or largerall of which severely limits their uses, says Giles Hammond, a physicist at the University of Glasgow in the United Kingdom. Although portable, current devicessome of which weigh as much as 150 kilogramscant easily fit in many places scientists would like to use them or be readily carried to remote locations or mounted on small drones. Sign up for our daily newsletter
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So Hammond and his colleagues set out to build a smaller, cheaper spring-based gravimeter. The heart of their device is a postage stampsized bit of silicon; its carved so that in its center theres a 25-milligram bit of material left suspended by three stiff, fiberlike structures that are each about 5 micrometers across (less than one-third the diameter of the finest human hair). Together, these act as the spring. As the gravitational field surrounding the device changessuch as it would if it passed over a large underground cavern or a dense deposit of minerals, because of the sudden change of density in the underlying rocksthe tiny bit of silicon bobs up and down in response to that change, Hammond says. Those movements are tracked by monitoring the silicons shadow as it moves across a light detector.
The teams gravimeter is so sensitive it can track the up-and-down motions of Earths surface caused by the changing positions of the sun and moon, the researchers report online today in Nature. (These so-called Earth tides occur and are measurable, but they are much smaller than those seen in the seas because rock is stiffer than water.)
For now, Hammonds team has proven the devices worth in the lab. Doing so in the field will be challenging, says Hazel Rymer, a volcanologist at the Open University in Milton Keynes, U.K. But if successful, the availability of gravimeters that are cheaper and much more portable than todays equipment will be a game-changer, she notes. Researchers could deploy networks of the tiny gravimeters to monitor the movements of magma within and underneath volcanoes, possibly discerning the magnitudes and patterns of flows in advance of an eruption, for example. Or they could mount them on drones and use them to search for underground voids that could eventually evolve into sinkholes, or for humanmade structures such as tunnels used to smuggle drugs.
They could also help prospect for mineral deposits that are denser than the surrounding rock, thus affecting the local gravitational field, says Tim Niebauer, a physicist and president of Micro-g LaCoste, a Lafayette, Coloradobased company that manufactures a variety of gravimeters. Or, he notes, a string of the devicesespecially ones that had parts-per-billion accuracy and could withstand high temperatures and pressurescould be fed down a borehole to monitor widespread changes in the amount of water in an aquifer or petroleum in a surrounding oilfield, possibly yielding information about how quickly such reservoirs might run dry. Those sorts of data can be gathered at Earths surface now, he adds, but the closer you are to the reservoir, the better the measurements can be.
Many of the potential applications for such devices have been science fiction for so long, Rymer says. Weve just been waiting for the technology to catch up with our ideas.
That’s heavy!!!
Tiny gravity sensor could detect drug tunnels, mineral deposits............or Michael Moore’s approach?..............
Build a 100 foot deep dry canal at least 40 foot wide if you cannot build a wall.
I want one
I want to map the certain caavernous passages under my yard
I can drill a shaft and pump 55 degree air. Cool in summer warm in winter
That’s good news. Besides drug smuggling, it could end the use of tunnels to smuggle weapons across borders. Now that the details are public, I wouldn’t be surprised if the Israelis come up with a practical device before anyone else.
Will wonders never cease...............
How do we know they ain’t already got one?.............B^)
I imagine they could used for navigation, too once accurate gravity maps are established.
I’m sure the property owners along the border will be cool with that. /s
Sounds like it would be useful in detecting subs. It could replace MAD which were big devices on ASW planes and put them on smaller drones to detect subs from the air.
They were still looking for a way to detect the deeper tunnels the terrorists had started constructing last I read.
What else could it possibly tell us?
If I were them, I would just drill a hole every 100 meters or so, about 10m meters deep, fill with high explosives and detonate every couple of months................The tunnels in process would collapse...........hopefully occupied..........
Traditional gravity meters or ‘gravimeters’ are essentially extremely accurate spring balances. The spring/weight mechanism is housed in a vacuum bottle, and fitted with optics so the user can compare a reference mark in a graticle eyepiece. Taking measurements and data reduction is a fairly laborious process for a field technician. The ‘average’ shape of the earth, tides (pull of the moon), coreolis effects and other factors need to be methodically removed from field data to yield useful information. A lot of the tedium has been removed with the advent of GPS technology similar to surveying. The newfangled device described in this article is also a spring balance but in the form of a nano-fabricated cantilever balance.
gravimetric navigation is used by the Navy on submarines, it’s accuracy and the gravity vector maps are all highly classified but yes it not only is possible it is used on a regular basis presently by our boomer subs.
the theoretical accuracy at part per billion in G is tens of meters if the maps are also made at part per billion resolution. Think Tercom navigation but instead of topography vectors as the truth sources gravity vectors are used with comparable accuracy as a note tercom on our cruise missiles is good to about 200 meters cep. One of my degrees is in Geospatial sciences we have been looking at using gravimetrics in the petroleum industry via airborne sources to do reservoir depletion geocellular gridding.
Every time I go down a hill, I feel the core coming at me.
Stupidest (and inadvertent funniest) sci-fi movie made..............
I would really like a postage stamp device that would tell me if there is gold or other valuable minerals under my house.
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