Within the mid-Sixties, the Nobel Prize–profitable physicist Luis Alvarez had a wild concept. He proposed utilizing muons, extremely penetrating subatomic particles created when cosmic rays strike Earth’s environment, to seek for hidden chambers inside one of many pyramids of Giza.
These muon particles are heavyweight cousins of electrons that journey near the pace of sunshine. They’ll penetrate via many meters of strong rock, together with the limestone and granite blocks used to construct the pyramids. However a number of the muons will probably be absorbed by this dense materials, which means that they can be utilized to basically “X-ray” a pyramid, revealing its inside construction. So in 1968, Alvarez and his colleagues started making muon measurements from a chamber positioned on the base of the Pyramid of Khafre.
They didn’t discover a hidden chamber, however they did affirm the feasibility of what has come to be referred to as muon tomography. Physicists have since used the method to find hidden access shafts above tunnels, study magma chambers within volcanos, and even probe the damaged reactors at Fukushima. And, in 2017, muon measurements lastly revealed a hidden chamber in one of the pyramids of Giza—simply not the pyramid that Alvarez had chosen to discover.
You can also carry out related experiments with tools which you could construct your self for under US $100 or so.
Whereas some well-documented designs can be found for low-cost muon detectors (particularly, the Cosmic Watch undertaking from MIT), I made a decision to pursue a less complicated—and barely cheaper—method. I bought two Geiger-counter kits, every costing solely $23. Though it’s referred to as a “equipment,” this board in truth comes absolutely assembled minus the important thing part: a Geiger-Müller (or GM) tube for detecting ionizing radiation. It additionally comes with no documentation.
The shortage of documentation wasn’t an issue as soon as I discovered a good source for information about this board—together with a pointer to valuable instructions for set the tube’s anode voltage.
The muon detector makes use of two Geiger-Müller tubes [top], every inserted right into a sensor board [bottom right]. Each boards are related to an Arduino Nano microcontroller [bottom left].James Provost
For the GM tubes, I made a decision to purchase what I understood to be good ones: Russian-made SBM-20 tubes. Many of those are listed on eBay by sellers in Ukraine, however I used to be in a position to get hold of a pair of such tubes from a provider within the United States for simply $49.
“Why two kits and two tubes?” you may ask. It’s as a result of GM tubes don’t react simply to muons. More often than not, they’re triggered by ionizing particles given off by radioactive substances within the setting, such because the daughter merchandise of radon within the air.
Proving that the outcomes mirrored the flux of cosmic-ray muons wasn’t tough.
To differentiate the high-energy cosmic-ray muons from the opposite, lower-energy particles isn’t exhausting, although. Simply apply what physicists name the coincidence method: Detect solely when two close by tubes are triggered virtually concurrently, which means one particle has barreled via each tubes. The 2 tubes in my machine are separated by 25-millimeter spacers, making it unlikely {that a} particle coming from a close-by radioactive decay could be energetic sufficient to go via each tubes. I diminished the chance much more by inserting a layer of fishing-sinker lead between the tubes.
To show the stacked pair of GM counters right into a coincidence detector, I connected the output of every board (oddly labeled VIN, which often means a pin for a voltage provide enter!) to a spare Arduino Nano, programmed to file successful solely when one board registers a rely inside 1 millisecond of the opposite. Naturally this implies the detector can acknowledge solely muons with trajectories roughly aligned with the airplane of the GM tubes in order that the muons go via each tubes.
Geiger-Müller tubes are activated by ionizing radiation, however not like cosmic-ray muons [red particles], most terrestrial sources [green particles] will not be highly effective sufficient to journey via the detector’s two tubes. By registering solely activations that happen virtually concurrently, we are able to plot the muon flux as a operate of the angle from vertical of the detector, with the noticed information following the anticipated mannequin carefullyJames Provost
Proving to myself that the outcomes certainly mirrored the flux of cosmic-ray muons wasn’t tough: I simply measured the rely fee as a operate of how far-off from vertical my detector was oriented. You see, the flux of cosmic-ray muons coming in vertically from the sky is larger than the flux of muons touring horizontally. Between these extremes, the flux ought to have a cosine-squared dependence on the angle because the detector’s airplane rotates from vertical to horizontal.
So I set about counting occasions with my machine oriented at completely different angles from vertical, permitting not less than 12 hours for every measurement. The outcomes have been fairly per the anticipated cosine-squared variation. For instance, when utterly horizontal, the detector registered a worth that was lower than 10 p.c of that obtained when vertical, nevertheless it wasn’t zero.
Getting nonzero muon counts even when horizontal isn’t so stunning. With solely a 2.5-centimeter separation between the 2 1-cm-diameter tubes, my detector’s angular decision is fairly broad (±22 levels). So even once I set the unit to sense horizontal flux, it was absolutely detecting muons coming in from as a lot as 22 levels above the horizon.
With a working muon detector in hand, I set off to probe the Earth—or not less than a small a part of it—by visiting the Reed Gold Mine, in Midland, N.C., the primary industrial gold mine in the USA. I spent about two and a half hours within the mine, making 5 30-minute measurements. I simply detected the more and more thick layer of rock above the mine’s essential horizontal tunnel. My detector was even in a position to sense the presence of a vertical shaft at one spot, because the absence of rock allowed extra muons to achieve me than I measured close by within the tunnel.
These measurements take a very long time as a result of it’s essential accumulate sufficient counts to supply cheap statistical precision. So that you’ll want persistence. Nevertheless it’s not a foul strategy to harness the facility of the cosmos, even deep underground!
