Transcript :
Chemistry in its element: holmium
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You're listening to Chemistry in its element brought to you by Chemistry World, the magazine of the Royal Society of Chemistry.
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Meera Senthilingam
This week, mythical monopoles that could lead us into another dimension.
Hayley Birch
In 1949, Milton Smith published a short work of fiction that he entitled The Mystery of Element 117. The real element 117 is yet to be discovered - it's a blank space in the Periodic Table just below the halogens. Smith's 117, however, was a strange material that could be used to open a window to another dimension. He called it a magnetic monopole substance - one that instead of having poles, plural, like an ordinary magnet, had a pole. Singular.
Now, whilst no reputable scientist would argue that a magnetic monopole could open an inter-dimensional portal, its existence isn't outside the realms of possibility and if recent reports are anything to go by, it could depend on an otherwise mundane metallic element that you can find skulking around near the bottom of the Periodic Table - holmium.
Despite having little else to shout about - bar a silvery sheen and a bit part in controlling nuclear reactions - holmium has some pretty fascinating magnetic properties. In fact, it has the strongest magnetic force of any element, albeit it as a paramagnet, which means it only becomes magnetic when it's sitting in an externally applied magnetic field.
Perhaps most interesting are recent experiments that involved using holmium to try to find the mythical magnetic monopole. First though, let's create some context. As we know, the monopole has acquired the kind of fringe scientific status that makes it worthy of mention in science fiction circles - besides its appearance in Element 117, the author Larry Niven references monopoles in his 1973 novel Protector, where he imagines one of his characters mining shovelfuls of north poles from the rings of Saturn.
But monopoles have also been the subject of much real scientific debate. The basis for their existence relies on work by the Nobel Prize-winning physicist Paul Dirac. According to theories, singular magnetic charges - monopoles - must exist in order to adhere to the grand unified theory of physics; to mirror the singular electric charges of elementary particles.
In 1982, a Stanford University physicist called Blas Cabrera thought he'd found one when, on Valentine's night, his "superconducting quantum interference detector" recorded a massive jump in the current fluctuations it was designed to monitor, indicating the existence of what he claimed to be a monopole. Cabrera and his troop of monopole hunters were given extra funding to build a bigger and better detector, but eventually abandoned their hunt in favour of a search for something similarly mysterious and just as elusive: dark matter.
Monopoles are even talked about in the same breath as the ever elusive Higg's boson, with whisperings that CERN scientists could create them, along with black holes, in their experiments at the LHC. So last year, when French scientists claimed to have found magnetic components in holmium titanate crystals that behaved for all intents and purposes like monopoles, they sparked a minor media storm. The crystals contained tiny north and south pole points that were separated by less than a nanometre.
Understandably, however, some scientists took issue with the use of the term "monopole" in this instance and argued that because that because one of these north points couldn't be created without the corresponding south point, the team hadn't found true monopoles.
So that's about as glamorous and interesting as holmium gets - a minor role in a science fiction story and in a search that may, for all we know, end in nothing but disappointment. And as the 56th most abundant element, it's twenty times more common than silver and hardly deserving of its "rare earth metal" label. In fact, in oxide form, it's used to colour cubic zirconia, the synthetic material that's sold as a cheap substitute for real gemstones. It is also found in very, very small amounts in the body and affects metabolism in certain bacteria, but it doesn't seem to be essential and no one really knows what, exactly, it does.
But perhaps I've been a bit harsh on poor old holmium, which, to be fair, doesn't get a whole lot of press. Because it does perform another useful task that's deserving of a mention. Some of the most cutting edge lasers used to treat certain cancers are solid-state lasers that require holmium to dope yttrium aluminium crystals. The lasers can be used to vaporise tumours with only minor tissue damage; a patient with early stage bladder cancer can be in and out of hospital in an afternoon without a general anaesthetic.
So there you have it: mythical monopoles and vaporising lasers. Not bad for an element you barely even knew existed.
Meera Senthilingam
So the search for the monopole continues, but vaporising tumours with minimal tissue damage is definitely a noteworthy application of holmium. That was science writer Hayley Birch with the mythical chemistry of holmium. Now, staying on treatments for cancer next week's element also has a radiating way to kill cancer cells.
Richard Corfield
225Ac can be used as the active agent Targeted Alpha Therapy, also known as TAT,a technique for inhibiting the growth of secondary cancers by direct irradiation with nuclear material. And so an element discovered in the same mineral - pitchblende - which kick-started the whole science of nuclear chemistry, today stands at the crossroads of one of the most challenging of all medical disciplines - finding a cure for cancer.
Meera Senthilingam
And Oxford's Richard Corfield will be revealing more uses for actinium as well as the origin of the actinides in next week's Chemistry in its element. Until then I'm Meera Senthilingam and thank you for listening.
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Chemistry in its element is brought to you by the Royal Society of Chemistry and produced bythenakedscientists.com. There's more information and other episodes of Chemistry in its element on our website atchemistryworld.org/elements.
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Now, let's delve into the information related to the article about holmium and its mythical association with magnetic monopoles:
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Holmium's Magnetic Properties:
- Holmium is described as having fascinating magnetic properties, boasting the strongest magnetic force among all elements.
- Its magnetic nature is attributed to being a paramagnet, meaning it becomes magnetic only when exposed to an external magnetic field.
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Holmium's Role in the Search for Magnetic Monopoles:
- The article discusses recent experiments involving holmium aimed at finding mythical magnetic monopoles.
- Reference is made to French scientists claiming to have found magnetic components in holmium titanate crystals that behaved like monopoles. However, some scientists contested the use of the term "monopole" in this context, arguing that true monopoles weren't found.
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Historical Context of Magnetic Monopoles:
- The concept of magnetic monopoles is rooted in the work of Nobel Prize-winning physicist Paul Dirac. Theoretical frameworks suggest the existence of singular magnetic charges to align with the grand unified theory of physics, akin to the singular electric charges of elementary particles.
- Mention is made of the 1982 incident where a Stanford University physicist, Blas Cabrera, claimed to have detected a monopole using a "superconducting quantum interference detector."
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Holmium's General Characteristics:
- Holmium is characterized as a metallic element with a silvery sheen.
- Its role in controlling nuclear reactions is highlighted, though it is noted that holmium has little else remarkable about it.
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Holmium's Abundance and Use:
- Holmium is identified as the 56th most abundant element, being twenty times more common than silver.
- In oxide form, holmium is used to color cubic zirconia, a synthetic material serving as a cheap substitute for gemstones.
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Holmium in Medical Applications:
- The article sheds light on holmium's practical applications, particularly in the medical field. It mentions holmium's use in solid-state lasers for treating certain cancers, such as early stage bladder cancer. These lasers, doped with holmium, can vaporize tumors with minimal tissue damage.
In summary, holmium, despite its relative obscurity, plays a crucial role in scientific experiments related to magnetic monopoles and finds practical applications in cutting-edge medical treatments involving laser technology for cancer therapy.
