Direct detection of Alpha Decay from Radon Gas.
Radon
collection is one of the few "separations" that can be done in the
home lab, and is relatively easy.
There are a number of Radon isotopes, all coming from decay of different
Radium isotopes. The two of major interest to us in the home lab are
1) Rn-220, also called Thoron, from Radium 224, which is in the Thorium-232 decay chain, milked from Thorium Lantern Mantles,
2) Rn-222 the
one commonly called RADON when we are
referring to Radon in homes. Rn-222 comes from the Radium 226 in the
Uranium-238 decay chain. Radon is a gas, heavier than air and sometimes is
called "radium emanation". Milked from Radium Watch Hands or natural
Uranium ore.
Collection can be accomplished by adsorption onto activated charcoal, or air
pumping. see:
http://www.p2pays.org/ref/17/radon/pubs/devprot3.html
Once the sample is captured, you
have pure Radon gas for a time, depending on half-life of the isotope.
Our goal is to count Alpha particle coming from the Radon, and time the
half-life. Using a Lucas Cell makes it easy. A Lucas Cell consists of a
container, whose inside walls are coated with Zinc Sulfide, at one end is a
clear window so the scintillations can be observed and counted by a photomultiplier
tube, and the other end contains one or two valves for the introduction of air.
Cells with one valve must be first pumped to a vacuum with a pump, the an air
sample is "grabbed" by releasing the valve until the air is sucked
inside, then closed again.
Grabbing air samples to test
for Radon in air can be accomplished by pumping out the air from a Lucas Cell,
transporting the cell to the test site ( cave, mine etc.), then quickly crack
open the valve. Air rushing in will fill the cell with a representative sample
and the Lucas Cell can be immediately tested on a portable PMT tubes as shown
in this apparatus that I made up from commercial parts, a hand vacuum pump,
and cardboard tubes:
Naturally this is called a
GRAB SAMPLER
Here is a picture of an original handmade Lucas Cell given me by Henry Lucas himself along with
one of his original papers from the meeting where he presented these devices to the world back in the 1950's. :
Cells with two valves use a simple air
pump to circulate the air, until a sample is collected, when both valves are
closed.
Other Alpha detectors can
be used like the mica end-window GM tube or the Pancake GM tube. Be sure to
cover the mica window with a layer or Rad Mylar so when the Radon gas decays
back into a solid, those radioactive daughters don't contaminate the window.
Rad Film or Rad Mylar is thin enough to pass Alpha particles. Small samples can
be obtained from the author for a nominal fee. All-metal GM tubes don't detect
Alpha particles, the walls are too thick.
Once the air and Radon are inside the Cell, you must count the CPM being
created by the Alphas right away. For Radon-222, the counts will remain steady
over a period of time, hours at least. The reason for this is the long
half-life ( 3.8 days) of the Radon itself, and also the high energy of the Alphas
from the decay daughters, Po-218 and Po-214. Over time, the energy of the
Alphas will shift from 5.49 of Rn-222 to 6.02 of Po-218 to 7.69 of Po-214. See
the decay scheme at:
http://www.ead.anl.gov/pub/doc/natural-decay-series.pdf
For Thoron, it is more dramatic, and far better for lab demonstration
purposes. I use a "cow" for collection, which is lust a large kitchen
funnel
with a coffee filter in the bottom. In the bowl of the funnel is place the
uranium ore or thorium mantles. On the spigot is a tube going to an air
pump, which sucks the air over the samples, and delivers it via another
inline filter to the Luca Cell ( or whatever detector you choose).
Picture shows 15 gm Th-232 in Pepsi Bottle cow. Airpump is surplus
"breathing
machine" or nebulizer purchased at a garage sale for 5 bucks.
Container of
activated carbon in background is for canister collection
experiments.
Air is drawn through 40 Th-232 lantern mantles, pulling gaseous
Radon 220 (Thoron)
off through filter which removes solid decay daughters. Air flows
through light trap and valve into a 1 liter ZnS(Ag) chamber. Air exits
the other
valve and light trap.
After a minute or two , the count rate stabilizes due to direct reading
of Alpha particles from the
Rn-220. At a point after seeing the steady state, the valves are
closed,
trapping a given sample which is then observed for decay due to the
short
56 second half-life of Rn-220.
Running the air with the cow empty yields around 15
CPM with no radiation
present other than random junk in the air.
Adding the mantles quickly increases the count to almost 2000 CPM, and this
is with the mantles STILL INSIDE the plastic baggies. Each baggies has a
tiny vent hole, through which some of the Thoron escapes. Later naked
mantles will be tested.
The above are large readings, with HV set to around 900. In practice, HV
will be set lower on the plateau with a background reading way down at only
50 CPH ( counts per hour), and then the radon will register 200 to 230 CPH
per pCi/L.
Thoron collected in this way gives a great reading on the meter, and begins
to die away in mere seconds as the half-life of Rn-220 is only 56 seconds.
The Polonium-216 daughter decays in less than a second, so within a few
minutes the experiment is over. If not flushed, the daughters will again
start producing Alphas in about 12 hours, from the further decay into
Po-212.
I hope this gives you some ideas for experiments, and reminds you that
simple equipment can do real science.
Have Fun
George Dowell
For those of you who have purchased one of my
Radon cows, here are some tips on
milking it with simple apparatus:.
First
of all, it takes about 100-200 radium watch hands to provide enough
"parent" to get
1
uCi of activity, depending upon the size of the watch hand. One uCi of parent
will produce 1 uCi of the
daughter
Ra-222 when equilibrium is reached. Half-life of Ra-222 is 3.8 days.
Once milked,
the radon will re establish equilibrium in 20 days.
See:
http://physics.nist.gov/GenInt/Curie/1927.html
or
use the Universal Decay calculator at:
http://www.wise-uranium.org/rcc.html
One
whole microCurie of Radium will produce one whole microCurie of Radon every 20
days, but
the
actual gas volume is quite small, only .000002 mL. Not all of the gas will
be free to leave the matrix either,
so
don't try to calculate the exact dose from simple math.
The
THORON Cow of course uses Thorium in the form of mantles to produce the THORON
gas, which an even better
type
of Radon ( Radon 220) from a home lab experiment standpoint. Having a much
shorter half-life of only 56 seconds,
some
pretty dramatic demonstrations can be accomplished, well within the attention
span of even grade school aged
students.
It
takes about 50 mantles to provide an approximate 1 uCi of parent. IF the
material is 40 years old, there will be an approximate
equilibrium
between the parent Th-232 and the daughter Ra-224 which is responsible for the
Rn-220. Our mantles are probably
no
where near that old, but even 9 year old material will have about 50%
equilibrium already. One day, we will have to do the age
test
on this stock on mantles to determine the material's equilibrium fraction. I
recommend 100 mantles for a serious Thoron Cow.
Nonetheless,
whatever the equilibrium fraction, it is assured that there is at least 50% of
the maximum Radon-220 available, and
the
Thoron Cow can be milked once per hour.
A gas extractor is simplicity itself. Use a squeeze
bottle as designed for Ketchup or Mustard that has a pointy top.
Clear plastic versions are more dramatic, and can be obtained from any
kitchen supply aisle.
Fill
the bottom 1/3 of the container with cotton wadding, then layer on your parent
material, either radium or thorium. Finally add another 1/3 filling of loose
cotton, leaving 1/3 at the top empty for expansion/contraction. Place a piece
of cloth over the container mouth before adding the top to it, to act as a
pre-filter against solids. Cap when not in use to accumulate the gas, and when
ready for use, uncap and slip your lab tubing over the pointy dispensing end. A
few puffs and you will have enough gas to fill your Lucas Cell, or to use in
any other desired detector. Always use an inline filter to eliminate any solid
particles that may get into the air stream, any of which would contaminate your
detector. Contact me if you need any glass-fiber-on-paper filter media, as I
have several boxes of the roll material. It can be cut or punched into standard
discs and is very cheap.
Don't forget that any Radon gas is heavier than air.
Radon in water ideas:
George, you can do the by
using a de-emanation tube. Its a U shaped glass tube with a frit on the
bottom. A frit is just a porous glass disk that when air is gently pumped
through it produces a fine cloud of gas bubbles ( think of your fish tank
bubbler) the bubbles pull the dissolved Rn out of solution and the gas is dried
using a drierite column and then captured into a lucas cell. you count
the radon in the water sample this way. Dudley Emer
Other materials gathered
so far are activated carbon for the adsorption
chamber, and some aeration stones ( both from aquarium supply aisle at
Wal-Mart).
The idea here is to immerse 100 thorium lantern mantles ( 300 mg Th-232
each= 30 gm), age them in and bubble off the Rn-220 gas through a filter to
a AC ( activated carbon) canister, which in turn will be examined in a an
Alpha sample counter and a Beta sample counter, as well as a sensitive Gamma
scintillator. (Caution Thorium salts are water soluable)
As you may have noticed,
Radon decays by Alpha decay, and it has a rather short half life. When you
collect Radon in the home to send in to a lab for testing, you are actually
collecting the gas on an activated charcoal medium, but the lab is testing for
the solid decay daughter that grow in over time. These are tested using a Gamma
Spectrometer.
Have
fun
George Dowell
New London Nucleonics Lab
Similar articles by author:
Pa-234m cow
Ba-137m cow
Materials available from the author:
ZnS(Ag)
screens
Thorium
Mantles
Radium
Watch Hands
Pancake
Detectors
LENi
Geiger Counter instruments
Rad
Film
PMT
Dynode Bases- custom made
Custom
Made Apparatus- on occasion
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