" Radiation Info " / FAQ Results @ seintl.com

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Radiation Info / What is the MARSSIM method?

"MARSSIM" is the "Multi-Agency Radiological Survey and Site Investigation Manual," a document widely used in designing and carrying out radiological surveys in support of license termination. With the MARSSIM Method the confidence level is locked in at 95% and 3 is used for the "k�" value. This affects, then, only calculations for Ld, MDA, and LLD. This method was proposed by Dr. Alan Brodsky and was adopted in the MARSSIM manual.

In truth, whether the MARSSIM method or the "traditional" method (proposed by Lloyd Currie) is used, very little difference is seen in the end result. The MARSSIM/Brodsky method should be more accurate when low background count rates are present. To match the MARSSIM methodology and Brodsky recommendations exactly, the sample counting time and background counting time should be identical, although MARSSIM does state that other methods exist that adjust for these differences.

Radiation Info / Can your instruments detect microwaves?

No. Our instruments detect ionizing radiation. Microwaves are non-ionizing radiation. DO NOT PLACE OUR INSTRUMENTS IN A MICROWAVE AS IT MAY DAMAGE THE INSTRUMENT OR THE MICROWAVE OVEN.

Radiation Info / Why is my instrument getting readings when there are no sources present?

The instrument is detecting the background radiation in that area. Background radiation is naturally occurring radiation all around us from cosmic radiation and radiation present in the soil.

Radiation Info / What types of radiation do your instruments detect?

Our instruments detect ionizing radiation. Types of ionizing radiation are Alpha, Beta, Gamma, X-ray, and Neutron Radiation. Examples of NON-ionizing radiation are microwaves and radiowaves.

Radiation Info / How far away from a source can I detect it if it is shielded?

Generally, our instruments will detect radiation up to 18 -24 inches through shielding.

Radiation Info / Can your instruments detect Radon?

Technically, you can use the kusnetz method or the tsivoglou method with our instruments for radon detection, however, these tests should be performed by a trained professional. There are much more practical commercially available tests for detecting radon. These are available at many home improvement stores, or you can contact your local RSO or Radiological Health Department for more information.

Radiation Info / Are any of SE International's products suitable for neutron detection?

Not currently. Neutrons are too high of an energy and too fast for standard GM tubes to detect. Neutrons need to be slowed down in order to detect them using a (BF3) boron trifluoride (uses a neutron to alpha particle conversion to get a measurement)or a High Pressure Helium 3 probe (uses a neutron to positron conversion to get a measurement).

Radiation Info / What is a Typical Geiger Counter?

A Geiger counter senses ionizing radiation by means of a GM (Geiger Mueller) tube. Some tubes have a thin mica window. When a ray or particle of ionizing radiation enters or passes through the tube, it is sensed electronically and displayed on the meter or LCD and by a red count light. When the switch is in the AUDIO position, the instrument will also beep with each radiation event.

Radiation Info / Taking Measurements

Geiger counters can detect the four main types of ionizing radiation: alpha, beta, gamma, and x-rays. Some detect only gamma and x-rays. Our instruments are calibrated to Cesium 137, but also serve as excellent indicators for many other sources of ionizing radiation. Gamma and x-rays are measured in milli-Roentgens per hour (mR/hr), micro-Sieverts (µSv/hr), or milli-Sieverts (mSv/hr). Alpha and beta are measured in counts per minute (CPM) or counts per second (CPS).


The window of the GM tube is very thin mica. This mica window is protected by a screen. Some levels of alpha, low energy beta, gamma, and x-rays that cannot penetrate the plastic case or the side of the tube can be sensed through the window.


Although some beta and most gamma radiation can go through protective gear, try to avoid skin contamination and ingestion. When you leave a radioactive area, remove any protective outerwear and dispose of it properly. If you think you have been contaminated, as an additional precaution, shower and consult a physician.



To determine whether the radiation detected is alpha, beta, or gamma, hold the instrument toward the source.


Alpha: If there is no indication through the back of the case (the side of the tube), position the window close to but not touching the source. If there is an indication, it is alpha, beta, or low energy gamma. If a sheet of paper placed between the window and the source stops the indication, it is most likely alpha. To avoid particles falling into the instrument, do not hold the source above the window.


Beta: Place a piece of aluminum about 1/8 inch (3 mm) thick between the instrument and the source. If the indication stops, decreases, or changes, it is most likely beta radiation. Most common isotopes emit both beta and gamma radiation. This is why the indication would decrease or change but not stop.


The non-occupational dose limits set by the government is 100 mR per year above background per year. It is up to the individual to decide what a safe radiation level is. It will be different depending on the individual and their knowledge of radiation and its affects. Radiation levels will vary according location and circumstances. As an example; if your background level is 25 CPM (counts per minute) where you live, when you fly in an airplane at 30,000 feet your rate meter may measure 200 CPM (.2 mR) for 2 to 5 hours. That is 8 times your normal background radiation on the ground, but it is only for a limited amount of time.


When measuring radiation in an emergency response situation, it is good to have something to compare your readings to. Taking a background radiation level reading in your area before a radiation event will help you determine if you have an elevated level of radiation and whether or not to stay in that location. Background radiation is naturally occurring radiation that is always present. It includes; high energy gamma rays from the sun and outer space and alpha, beta, gamma radiation emitted from elements in the earth. Using a rate meter, you can determine your normal background radiation levels.


For a good emergency response kit for radiation we recommend a general purpose Geiger counter (like the Monitor 4), a carbon fiber dosimeter (such as the PEN200) and a Charger to reset the dosimeter. There are electronic dosimeters, however, if you were in the blast zone of an atomic bomb the pulse of the bomb would make most electronic equipment inoperable. The carbon style dosimeters will still operate.


Gamma: If there is an indication of radioactivity, it is most likely gamma or high energy beta. Low energy gamma and x-rays (10-40 keV) cannot penetrate the side of the GM tube, but may be detected through the window.

If you perform the alpha/beta test above and there is no change or only a very slight change in the indication, the source is emitting primarily gamma radiation.

Radiation Info / A Brief Overview of Radiation Detection

None of the instruments listed in this website detect neutron, microwave, RF (radio frequency), laser, infrared, or ultraviolet radiation. All of the instruments are most accurate for Cesium 137 and isotopes of similar energies. Some isotopes detected relatively well are Cobalt 60, Technicium 99M, Phosphorous 32, Strontium 90, and many forms of Radium, Plutonium, Uranium, and Thorium.

Some forms of radiation are very difficult or impossible for a Geiger tube to detect. Tritium is a byproduct of a nuclear reactor and is used in research. The beta emissions from Tritium are so weak that there are very few instruments that are capable of detecting it. More sophisticated equipment is needed for the measurement of environmental samples, such as radioactivity in milk, produce, soil, etc., unless you are looking for gross contamination.

The radiation from some isotopes can cause a Geiger tube to overexcite and indicate a higher level of radiation than is actually present. Americium 241 is an example of this phenomenon. Americium 241 is used in some smoke detectors and many different types of industrial density and flow meters.

Unless you know exactly what you are measuring and understand the limitations of detection instruments, it is possible to draw misleading conclusions from your readings. We design our instruments to detect the broadest range of ionizing radiation possible and still be affordable. The full spectrum of ionizing radiation cannot be measured by one single instrument.

Everyone agrees that radioactive materials can be dangerous.

Radiation Info / Possible Household Sources of Radiation

Smoke Detectors: Some smoke detectors contain a sealed radioactive isotope as part of the smoke sensing mechanism. There is no danger to the individual if the container in sealed. They are labeled.

Camping Lantern Mantles: In recent years this has changed but some lantern mantles are made with radioactive Thorium. Be especially careful not to inhale or ingest the fine ash that is left when they are burned out.

Clocks, Watches, and Timers: Many old timepieces have dials painted with radium to make them glow in the dark. Tritium is now commonly used to obtain the same effect. Tritium is also radioactive but emits low energy radiation which cannot penetrate the lens of the timepiece.

Jewelry: Some gold used to encapsulate radium and radon for medical purposes was improperly reprocessed and entered the market as radioactive rings and other types of gold jewelry. Some imported cloisonnebeing glazed with uranium oxide exceeds U.S. limits.

Some gems are irradiated by an electron beam or in an accelerator to enhance their color. Irradiated gems typically are held until there is no residual activity remaining.

Rock Collections: Many natural formations contain radioactive materials. Hobbyists who collect such things should vent the rooms in which these items are stored and be careful to avoid inhaling the fine dust particles from these samples.

Pottery: Some types of pottery are glazed with uranium oxide, such as Fiesta ware. To the best of our knowledge, this process has been discontinued, although some of these pieces are still in circulation.

Radiation Info / Where can I find information about State Radiation Protection Programs?

Click here to contact the Conference of Radiation Control Program Directors. Inc. (CRCPD) for a list of professionals in your area.

Radiation Info / How do I survey scrap metal?

Typically, most large GM based detectors will detect 2 feet into any load of scrap metal. To perform a survey, scan with the meter window 1cm from the source and move the meter about 2 inches per second over the material you are surveying.

Radiation Info / Periodic Table of The Elements

You can find an online Interactive Table of the Elements from TouchSpin.com by clicking here

Radiation Info / What does the Energy Response Graph represent?

The Energy Response Graph shown in the operation manual gauges how the instrument will respond to various energies. GM detectors cannot distinguish different types of energies, but we can gauge how the detector responds to them.

Energy Response Graph

For example, on the graph shown above, the M4 Sidewall response starts at 30 keV with a relative count rate of 3. An isotope giving off radiation at 30 keV might cause the GM tube to over respond by 3X. This means the detector may be reading that there is three times the exposure present. At its highest peak, the meter will over respond showing 7 times the rate at 60 keV. The Monitor 4 will start to have a relative response of 1 at about 500 keV.

Radiation Info / Glossary of Common Radiation Terms

Alpha: Positively charged particles emitted from the nucleus of an atom. Alpha particles are relatively large, and very heavy. Due to this strong (+) charge and large mass, an alpha particle cannot penetrate far into any material. A sheet of paper or an inch of air can usually stop most alpha particles.

Background Radiation: Naturally occurring radiation is always present, it includes high energy gamma rays from the sun and outer space and alpha, beta, and gamma radiation emitted from elements in the earth.

Beta Particles: Negatively charged particles emitted from an atom. Beta particles have a mass and charge equal to that of an electron. They are very light particles (about 2,000 times less mass than a proton) and have a charge of -1. Because of their light mass and single charge, beta particles can penetrate more deeply than alpha particles. A few millimeters of aluminum will stop most beta particles.

Bq (Becquerels): A quantity of radioactivity in which one atom is transformed per second. 1 dps (one disintegration per second).

CPM (counts per minute): The unit of measurement usually used to measure alpha and beta radiation.

Gamma Rays: Short wavelength electromagnetic radiation higher in frequency and energy than visible and ultraviolet light. Gamma rays are emitted from the nucleus of an atom. These high energy photons are much more penetrating than alpha and beta particles.

Ion: An atomic particle, atom, or molecule that has acquired an electrical charge, either positive or negative, by gaining or losing electrons.

Ionization: The process by which neutral atoms of molecules are divided into pairs of oppositely charged particles known as ions.

Ionizing Radiation: Radiation capable of producing ionization by breaking up atoms or molecules into charged particles called ions.

Radiation: The emission and propagation of energy through space or through matter in the form of particles or waves.

Roentgen (rent-gen): A basic unit of measurement of the ionization produced in air by gamma or x-rays. One Roentgen (R) is exposure to gamma or x-rays that will produce one electrostatic unit of charge in one cubic centimeter of dry air. One thousand milliroentgen (1,000 mR)= 1R.

Radionuclide: The naturally occurring or artificially produced radioactive form of an element.

Sievert: A unit of dose equivalent. 1 Sv= 100 roentgens, 10 µSv/hr = 1 milliroentgen/hr. (µSv micro-Sievert, micro is one millionth, milli is one thousandth.)

X-Rays: Electromagnetic radiation (photons) of higher frequency and energy than visible and ultraviolet light, usually produced by bombarding a metallic target with high speed electrons in a vacuum. X-rays are photons emitted by interactions involving orbital electrons rather than atomic nuclei. X-rays and gamma rays have the same basic characteristics. The only difference between them is their source of origin.

Radiation Info / Common Conversions and Prefixes

1 Ci = 37 kBq

1 mCi = 37 MBq

1 Bq = 27 pCi

370 MBq = 10 mCi

1 Sv = 0.1 mrem

1 mR/hr = 10 µSv/hr

SI Unit Prefixes

10-3 milli m

10-6 micro

10-9 nano n

10-12 pico p

103 kilo k

106 mega M

109 giga G

1012 tera T

Roentgen, represented by "R", is the unit of measurement that indicates the charge produced in air by x or gamma rays, whereas SI Units are in terms of coulombs per kilogram of air (C kg-1).

1R = 2.58 X 10-4 C kg-1

Radiation Absorbed Dose and KERMA (Kinetic Energy Released in Material)

100 rad = 1 gray (Gy) 0.01 Gy = 1 rad

Radiation Dose Equivalent

100 rem = 1 sievert (Sv)
0.01 Sv = 1 rem

1 MilliSievert = 1000 MicroSievert
1 Sievert = 1000 milliseiverts = 1000000 microsievert

Activity

1 disintigration per second = 1 becquerel (Bq)

2.7 X 10-11 curie (Ci) = 1 Bq

Converting CPM to mR/hr

Equation
Sensitivity is expressed in cpm per mR/h. Mathematically the cpm units cancel leaving mR/h.

Equation

For example, if you have collected 200CPM with the Radiation Alert Ranger, which has a typical gamma sensitivity of 3500 cpm per mR/hr, you would divide the 200 cpm by the 3500cpm per mR/hr sensitivity. The cpm cancels out and you are left with 200/3500 mR/hr = 0.057 mR/hr

Equation




Conversion Calculator at Convert-Me.com

Radiation Info / Emergency Response and Preparedness

Since the event of September 11, we have had an increased amount of calls from individuals wanting to be informed if a radiation event takes place. Radiation is a scary topic for most individuals, but some basic knowledge will help in determining what action to take when exposed to radiation in an emergency response situation.

The types of radiation encountered during such an event are alpha, beta, and gamma. Alpha and beta are particles and gamma is a ray/photon. A piece of paper can stop alpha and a few millimeters of aluminum foil can stop most betas. We say most beta energies because there are high energy betas that are more penatrable. Most people consider alpha and beta not to be of a concern; however, these particles can be ingested or inhaled and cause damage to the body. There are high and low levels of gamma, but the primary concern with gamma radiation is the amount of time you are exposed to it.

There are two types of monitoring devices that are applicable in an emergency response to radiation. One is a rate meter/general purpose Geiger counter. This type of instrument shows the rate that the radiation is being received. The other is a dosimeter. A dosimeter shows the amount/dose being received.

When measuring radiation in an emergency response situation, it is good to have something to compare your readings to. Taking a background radiations level in your area before a radiation event, will help you determine if you have a radiation elevation and whether or not to stay in that location. Background radiation is naturally occurring radiation that is always present. It includes; high energy gamma rays from the sun and outer space and alpha, beta, gamma radiation emitted from elements in the earth. Using a rate meter, you can determine what your normal background is.

It is up to the individual to decide what a safe radiation level is because it differs depending on the individual and their knowledge of radiation and its affects. As an example; say your background level is 25 CPM (counts per minute) where you live. When you fly in an air plane at 30,000 feet your rate meter is getting 200 CPM for anywhere between 2 to 5 hours. That is 8 times what your normal background is on the ground, but it is for a limited amount of time. There are non-occupational dose limits set by the government which is 100 mR per year above background per year.

What we suggest for a good emergency response kit for radiation is a general purpose Geiger counter like the Monitor 4, a carbon fiber dosimeter such as the PEN200 and a Charger to reset the dosimeter. There are electronic dosimeters, however, if you are in the blast zone of a nuclear bomb the pulse of the bombs render most electronic inoperable but the carbon style dosimeters will still operate.

Radiation Info / What is the lowest beta energy that SEI's units can detect?

The 10 keV mentioned in some of our specifications is specific to gamma/x rays. For beta particles, it is a bit different. For example, the detector used in The Ranger and Abacus units has an "Areal density" listed as 1.5 to 2.0 mg/cm^2. Looking this up on a beta particle range/energy curve, this thickness will stop all betas up to about 35 keV. Therefore the ABSOLUTE minimum beta energy that can be detected is about 35 keV, not taking into account any other physical factors (distance, self-absorption, the grill over the detector, etc.).

Radiation Info / What is the conversion between kV (X-Rays) and keV (Gamma)?

kV is actually the kilo Voltage at which an x-ray tube is operated.KeV is the is the energy that an electron gains when it travels through a potential of one thousand volt.When an x-ray tube is operated at 50kV the electrons from the cathode are accelerated towards the anode and the electrons, on hitting the anode, produce the x-rays. The x-rays thus produced will have a a spectrum of energies from a few keV to a maximum of 50keV. The average energy of the x-rays will be approximately one-third of the maximum energy 50 keV.

Radiation Info / How does the size of a GM tube effect the dead time?

The dead time has to do with detector size, anode resistor valve, and the distance of the anode resistor from the detector.

In general the smaller the detector the shorter the dead time. The lower the resistor value the shorter the dead time. The closer the anode resistor is to the anode the shorter the dead time.

Energy compensation does not contribute to the dead time of a detector.

Radiation Info / How do I perform a basic survey using my survey meter?

How to Detect Background Radiation

To see what the background radiation is in your area, simply turn the instrument on and, after the 30 second start up beep, the general background radiation will be displayed.

How To Survey a Surface

When surveying a surface, such as a counter top, you will need to hold The Ranger about 1-2 centimeters from the surface while moving the unit horizontally across the survey area at a rate of 2 inches per second.

How to Perform a General Survey

A general survey would be used to find a potential source. For example, if you are looking for a potential source in a pile of scrap, The Ranger will typically detect about 2 feet into a pile. It is easier to find a source when The Ranger is set to Fast Response mode. However, even if The Ranger is in Auto-Averaging mode, the audio clicks that indicate a count should be a sufficient indicator if a potential source is present. To find the source, slowly move The Ranger in the direction of the higher readings or clicks until the potential source is found.