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210 Po: An Interesting Nucleus. The s-process ‘terminator’...end point of element production the stars... Mme. Curie (and some of her mates...) in 1898 There’s a lot of it about... Properties (alpha, energies, gammas?) How can/does it harm you?. Alexander Litvinenko, aged 43 :
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210Po: An Interesting Nucleus • The s-process ‘terminator’...end point of element production the stars... • Mme. Curie (and some of her mates...) in 1898 • There’s a lot of it about... • Properties (alpha, energies, gammas?) • How can/does it harm you?
Alexander Litvinenko, aged 43 : Before and after effects of radiation poisoning with ‘polonoium – 210’ . Reported feeling ill on 1 Nov. 2006, died 23 Nov. 2006.
206Pb (Z=82) (N=124) 210Po (Z=84) (N=126) 4He (Z=2) (N=2) Alpha-decay of 210Po Q = energy release = [ M(210Po) – { M(206Pb) + M(4He)} ] c2 ~ 5.5 MeV ~1 pJ. i.e., around 0.003% of total 210Po mass released kinetic energy in decay. (rare occasion, 206Pb can be left in an excited state….803 keV above the ground state.) Total energy released shared as KINETIC energy between 206Pb and 4He. Cons. of linear momentum means most of the energy (5.3 MeV) goes to 4He.
lethal dose ~50 Mbq actual dose ~5 GBq (30 μg) Production by n-capture on 209Bi Po-210 Z = 84 138 day β (100%) 5.3 MeV α (100%) 2+0+803 keV γ (0.01%) Bi-209 Z = 83 stable Bi-210 Z = 83 5 day n Pb-206 Z = 82 stable α (0.0001%) β Tl-206 Z = 81 4 min
Not a bad authors list....one for the RAE of circa 1930 no doubt!
The Natural Decay Chain for 238U Qa(210Pb) = 5.41 MeV Ea = 5.30 MeV E(206Pb) = 0.11 MeV T1/2 = 138 days. ‘Radium’ ‘218At =Radium B’ 210Po =Radium ‘F’ Radon =‘Emanation’ C’ ‘218Po =Radium A’ E C D C’’
Figure Wiescher, Regan & Aprahamian, Physics World Feb. 2002, page 33-38 Slow-neutron capture process allows formation of elements from A~56 to A=209 (Bi)... terminates at 209Bi...why?
S-process makes 209Bi from 208Pb+n → 209Pb (T1/2=3.2hr) → 209Bi Neutron capture on stable 209Bi →210Bi (T1/2 =5 days) → 210Po. 210Po → a + 206Pb (stable nucleus, as is 207Pb and 208Pb).
How much is ‘bad’ for you ? From the Daily Telegraph, 4th Dec. 2006, By Ben Fenton
The second, much more serious incident occurred in 1955, when 15 workers in the section where polonium was processed were exposed when a load of waste material was spilled over a table. The material was gathered up into a large paper bag, but then the worst happened. "While collecting the waste into the bag, it was accidentally compressed and a puff of air came up into the faces of two men," the report said. "Because it was known that the waste was grossly contaminated, it seems reasonable to assume that the doses were received by inhalation." This level of direct exposure by inhalation must be many times greater than any passenger would be likely to receive from sitting on a plane, according to Dr Paddy Regan, a reader in nuclear physics at the University of Surrey. "They effectively breathed this in directly from a powerful source and the dose they got would have been several orders of magnitude greater than anyone could have got from simply sitting on a plane," he said. And the top secret files show that the peak level of radiation detected in the two men was 0.6 microcuries in one and 0.2 microcuries in the second. A lethal dose for ingestion or inhalation by a human being would be between 500 and 5,000 microcuries, according to calculations by Dr Regan and his colleagues. Although they are not named, there is no suggestion in the file that either man suffered any kind of health setback from their exposure. In 1957, the fire and explosion at the nuclear reactor at Windscale (now called Sellafield), Cumbria, released 240 curies of polonium into the atmosphere, enough to kill thousands of people if ingested, but rendered harmless by being diffusion in the atmosphere.
How you estimate the damage? • Radiation damage measured in ‘Grays’ • 1 Gy = 1 Joule imparted per kilogram • Estimates are ‘assessed’ depending on • type of radiation (i.e., gammas, betas, alphas…) • body tissues/organs affected…different cells have different tolerances to radiation damage.
SRIM output for 5.3 MeV alphas on skin (1000 histories)..typical range ~0.04mm No problem outside the body...alphas stop in dead layers of the skin.
From Alpen p427 The total sum of weighting factors = 1.00.....Stomach, colon badly affected by radiation...uptake in stomach wall leads to blood and then other organs in body.
Paddy’s ‘back of the envelope’ Calculation.... • Need to calculate the energy emitted per second at 1mCi for 210Po andassume 'lethal' value (assume 0.1 Gray = 0.1 J/Kg deposited as a lethal • 'whole body dose’ for human over entire body)Total alpha energy emitted by 210Po = Ea ~ 7x10-13 J x activity x time exposed • For a 1mCi 210Po source, Power =(7x10-13) x (0.001 x 3.7x 1010) =3x10-5 J / secondEnergy deposited in 1 hour from 1mCi source ~ (3.6x103 s) x (3x10-5 J/s) ~ 0.1 J/hour→ (neglecting excretion) ~ 1 Joule in 10 hours. • Conclusion...1mCi would be enough....5mCi to be sure...but must be ingested. • Clearly would be worse if you get this in the lungs where none would beexcreted out...but assuming just the guts etc....Mass of intestinal tract/stomach etc. ~5 kg perhaps?Lethal dose in 5 hours of ingestion for 1 mCi source if swallowed?Who body exposure/dose for 100kg man after ~ 5 days for 1mCi source.
Typical 238U concentrations in crustal rock ~1-3 parts per million (see ‘Radioactivity in the Environment’ R.L. Kathren, Harwood Academic publishers.
Some 210Po Numbers..(taken from ‘Radioactivity in the Environment’ R.L. Kathren, Harwood) • Estimated annual internal ‘whole body’ dose equivalent from natural 210Po radioactivity in the USA = 30mSv (same as 222Rn). (40K =170mSv for comparison) • Annual dose equivalent to epithelial tissue lining the lungs from Radon and its daughters (e.g., 210Po) ~20mSv (double this for cigarette smokers).
How can we tell if someone has 210Po in the future ? 206Pb first excited state at 803keV 1:105possible way to tell... 1mCi = 3.7 x 107decays per second ~ 400 gammas per second.... Enough for a signal in a whole body counter ? Biological half-life for 210Po ~50-60 days, only if you are alive to ‘excrete it’ (collects in the Kidneys).....look for activity in the (dried) urine...
Summary • 210Po has an interesting history…named after Poland (which didn’t exist at the time). • It occurs naturally (from the decay of 238U). • It is responsible for ‘terminating the s-process (limiting number of chemical elements). • You can make it in neutron-capture reactions on 209Bi. • Can be detected by a - or gamma-ray spectroscopy. • Don’t eat or drink it (few m.gm are deadly): No problem really outside the body. • Physicist are useful to the public. Numbers matter in calming peoples fears….