Helium is used to cool the superconducting magnets used in MRI (magnetic resonance imaging) scanners<\/a>, which help diagnose conditions through high-resolution, 3D imaging of human tissues. <\/p>\n Superconducting magnets enable the sustained, intense currents needed for high resolution imaging. A superconductor is a material that conducts electricity with zero resistance (defined as the opposition to current flow in a material). <\/p>\n In order to do this, however, the magnets need to operate at extremely low temperatures.<\/p>\n Helium is the ideal coolant for these magnets because it has the lowest boiling point of any element: -268.9\u00b0C. At this temperature or below, helium is liquid and can be used to bathe the magnetic coils used by MRI scanners.<\/p>\n Some particle accelerators, such as the Large Hadron Collider at Cern in Geneva, also use liquid helium<\/a> to cool their superconducting magnets. These magnets are used to bend and control proton beams.<\/p>\n The processors in quantum computers need to be cooled<\/a> to similarly low temperatures in order to operate and, here too, helium is the coolant of choice.<\/p>\n Helium is used in computer chip production<\/a> to displace oxygen and moisture within fabrication facilities, where conditions are tightly controlled to avoid contaminating delicate microprocessors. <\/p>\n The element is also used as a coolant during high-temperature stages of chip production. These include the etching process<\/a>, where unwanted material is removed from semiconductor wafers \u2013 the substrates on which circuits are assembled. <\/p>\n In space rockets, the non-flammable gas is used to flush out fuel lines and to pressurise fuel tanks. <\/p>\n Welding and fibre optic production requires helium to create inert, controlled environments.<\/p>\n Helium\u2019s value comes from physical properties that are very difficult to substitute. In addition to its low boiling point, which makes it an excellent coolant, helium is inert and extremely light.<\/p>\n Its tiny molecules make it ideal for detecting the smallest leaks in pipelines and equipment.<\/p>\n Despite being the second most abundant element<\/a> in the universe, helium is extremely rare on Earth. It forms underground over billions of years from the radioactive decay of uranium and thorium. <\/p>\n Because it is lighter than air, it escapes easily into the atmosphere and eventually into space, making it effectively non-renewable.<\/p>\n Unlike most resources, helium is rarely produced on its own. In Qatar and other countries, helium is produced as a by-product of liquefied natural gas (LNG) production. <\/p>\n That means the supply of helium depends entirely on the production of natural gas: when gas production drops, so does helium output. <\/p>\n This is exactly what has happened in Qatar, where attacks on gas facilities have suspended both gas and helium production.<\/p>\n Exporting helium is not simple. It requires highly specialised cryogenic containers to keep it extremely cold during transport. These shipments must pass through narrow trade routes<\/a> such as the Strait of Hormuz, making the supply chain vulnerable to political conflict.<\/p>\n The specialised containers are insulated, but not refrigerated. This means that, due to the physical properties of helium, the element will escape from the containers over time.<\/p>\n<\/p>\n Other countries have tried to develop helium production to reduce reliance on Qatar. Iran has worked<\/a> to extract helium from its South Pars Gas Field, but sanctions have made this difficult. China, meanwhile, has been building<\/a> the infrastructure to make its own helium and is prospecting for new reserves<\/a> to diversify supply.<\/p>\n The US has the world\u2019s largest helium reserves, stored in Amarillo, Texas. Originally established in 1925 to supply the airship industry, the reserve became a global strategic buffer that helped stabilise prices. <\/p>\n In recent decades, however, the US sold off much of the stockpile under the Helium Stewardship Act of 2013<\/a>, reducing this safety net.<\/p>\nA versatile element<\/h2>\n
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\n Metamorworks \/ Shutterstock<\/a><\/span>
\n <\/figcaption><\/figure>\nManufacturing helium<\/h2>\n
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