medical & health physics med phys 772 - faculty of science
TRANSCRIPT
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Radiofrequency/Microwave Radiation
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What Is It?
• “Long” wavelength photons
– Millimetre to metre, or
– MHz – GHz radiation
• Also keep in mind “VLF/ELF” (very/extremely low frequencies, e.g. 60 Hz power lines)
– Same principle as RF/MW but even longer wavelengths
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Why Do We Care?
• Heating (think cooking with microwave ovens)
• Mixed evidence for detrimental effects at the cellular/molecular level
• Public awareness (think wifi in schools, cell phone radiation)
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Why Do We Care?
• Regulatory
— Safety Code 6, primarily for telecommunications
• Few studies (none recent) examining occupational exposure due to implantable RF hyperthermia devices
– Existing data suggest there isn’t a concern
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Physical Principles
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RF/MW Spectrum
• Radiofrequency (RF)
– 300 kHz to 300 MHz
• Microwave (MW)
– 300 MHz to 300 GHz
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RF/MW Spectrum
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RF/MW Usage
• Radar
• Satellite communications
• Radio and ground communications
• Microwave ovens
• Medical devices (diagnostic and therapeutic)
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RF/MW Delivery
• Continuous
• Amplitude modulated
• Frequency modulated
• Pulse modulated
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RF/MW Photons
• Usually treated as a wave only because those properties manifest easily at these long wavelengths
• Propagation is modeled by Maxwell’s equations
• Photons can be scattered, absorbed, refracted, reflected, and diffracted
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Characterizing RF/MW
• Frequency
• Intensity of electric and magnetic fields (transverse EM wave)
• Direction of travel
• Polarization
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Power Density and Irradiance
• One of the most useful quantities for the health physicist, the Poynting vector
• Irradiance is the time-averaged power density
HE
Irradiance W/m2
W/m2
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Near vs Far Fields
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Near vs Far Fields
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The Far Field
• This region occurs at distances far enough away from the source that is may be treated as a point source
• RF/MW fields are plane waves in this region; inverse square law applies
• Magnitude of electric and magnetic fields are related: E/H = 377 (impedance of free space)
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The Far Field
• Power density reduces to
• Distance from the source to the far field can be estimated by
22Ld far
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The Near Field
• Reactive near field – Very close to source (within 1 or 2 )
– Wave is being formed in this region
– Objects placed in this region can have a strong affect on the nature of the field
– Power density very difficult to measure directly here
– Plane wave approximation cannot be assumed, and inverse square does not apply
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The Near Field
• Radiative (Fresnel) near field
– Inverse square law still does not apply
– Antenna design and focusing can still be influencing the field in this region
– Power density can be determined, but E and H must be measured separately
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RF/MW Sources
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Ambient Sources
• Natural background – Primarily solar irradiance and terrestrial
reirradiation
– Irradiance < 1 W/m2
• Human made – Dominates the urban environment
– Principle sources radio / TV / telecommunications
– Irradiance ~ 50 W/m2 (ground level average over USA)
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High Power Sources
• Irradiance > 1 W/m2 at 100 m
– Radio and TV transmitters
– Cell phone transmitters
– Airport beacons for navigation
– Radars for air traffic control
– Weather radar systems
– Satellite communication systems
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Low Power Sources
• Irradiance < 1 W/m2 at 100 m
– Cellular phones
– Traffic radar
– Microwave ovens
– Medical devices
Therapeutic heating
Linear accelerators for radiotherapy
MR imagers
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Antennas
• Small antennas
– Antenna whose largest dimension is no greater than the wavelength
– Extent of reactive near field region /2
– No general theoretical estimation for field strength in the near zone, measurements are required in most situations
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Antennas
• Large antennas
– Largest dimension is larger than the wavelength
– Far field may begin as early as
– Examples include
Parabolic reflectors
Large arrays
Horn antennas
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Power Density In The Far Field
• EIRP = Effective Isotropically Radiated Power [W]
• r = distance from antenna [m]
• PT = net power delivered to the antenna [W]
• G = antenna gain wrt an isotropic antenna
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Antenna Gain
• Mainly for directional sources, focusing energy into a beam that would otherwise be radiated into 4
• Ae = effective area of the antenna = A
= antenna efficiency (0.5 – 0.75 typical)
A = physical aperture area of antenna [m²]
= wavelength [m]
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Model Of RMS Electric Field Strength
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Pulsed Sources
• Example: radar
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Pulsed Sources
• Duty factor F=T/Tr
• Pulse repetition frequency (rate) fp = 1/Tr
• Average power Pa = Po*F [W]
• Average power density Wa = Wo*F [W/m²]
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Scanned Sources
• Think of a rotating radar dish
• Average power density
• Wm,s = power density in Motion and on central axis Stationary beams
• K = rotational reduction factor
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Scanned Sources
• a = dimension of antenna in rotation plane [m]
• R = circumference of the antenna scan sector at distance r [m], where measurements were performed
= scan angle [rad]
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Scanned Sources
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Leakage From Sources
• Quantities must be measured
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Interactions with Tissue
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Mechanisms
• Tissue is a “lossy dielectric” medium to RF/MW exposure
– Removes energy from the field
– Fields induce electric and magnetic fields within the body
– Absorption results from charge motion
• Absorption results in both thermal and nonthermal effects
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Dielectric Losses
• Typically molecular rotations or dipole induction leading to frictional losses
• e.g. flipping water molecules trying to align with fields
• Related to the relative permittivity ( ) of the material
+
- E
+ -
E
+
-
+
+
-
+
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Conduction Losses
• Displacement or drift of free electrons and ions in the tissue resulting from local electric field
• Energy absorbed from the RF/MW field through collisions between free electrons and other molecules
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Thermal Processes
• Primary concern for health physics
• Heat generated both from oscillating molecules and collisional energy transferred from free electrons
• “Dose” for thermal interactions is quantified by the Specific Absorption Rate
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SAR for RF/MW
• For a continuous sinusoidal wave
– : electrical conductivity ( -1 m-1)
– o: permittivity of free space
– ”: complex part of relative permittivity
A measure of the degree of how easily a medium is polarized, and the drift of conduction charges
Also a function of frequency (tends to decrease)
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SAR for RF/MW
• SAR proportional to f, but the relationship is not so straightforward – ”, induced internal fields have their own
frequency dependencies
– SAR may also depend on field orientation
• To estimate local SAR, knowledge of the field strength, and either ” or must be known for the particular tissue at that frequency
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Conductivity in Muscle
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What Does it Mean?
• In practice, the SAR equation above is not all that useful – It is reasonable, though, for homogeneous
isotropic media formed into simple shapes
• Mathematical models and animal studies have been used to assess SAR averaged over the entire body, arising from an external field with fixed power density, as a function of frequency
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SAR “Regions”
Body parts are
not good
antennae.
Body becomes
good antenna,
maximum
absorption.
Strictest
protection
standards.
Body ceases to be a
good antenna and
absorption drops to
~10% maximum.
Skin
absorption
dominates
above 15 GHz.
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Average SAR by Species
Frequency of peak absorption depends on the size of the object.
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SAR Field Orientation Dependence
• Previous two figures were generate for the electric field vector parallel to the major axis of the object’s body
– Corresponds to maximum SAR per unit power density
• What happens if it is not?
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SAR Field Orientation Dependence
E: electric field parallel
H: magnetic field parallel
K: neither parallel
Curves for 10 W/m2
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Nonthermal Interactions
• Nerve and muscle stimulation (membrane excitation)
– Powers high enough for heating
– 10’s of MHz
• Alignment of subcellular components along E-field (“pearl chain”)
– Mechanical distortions in strong fields
• Other documented biological effects that may correspond to poorly understood molecular interactions (coming up)
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Biological Effects
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Thermal Effects
• Produced by irradiances > 100 mW/cm2
• Temperature increases when energy absorption > energy dissipation
• Since SAR is proportional to E-field, modeling temperature distribution is complicated
• Internal boundaries/heterogeneities may also strongly affect temperature distributions
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Heating in Layered Tissues
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More Thermal Effects
• Ears: “microwave hearing” – Click, buzz, or chirp sounds possibly caused by
rapid thermal expansions of the skull
• Eyes: cataracts in animals at irradiances > 100 mW/cm2
• Gonads: birth defects and reduced fetal size in animals
• Brain: leakage of blood-brain barrier at 45oC
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Nonthermal Effects
• Produced by irradiances < 10 mW/cm2
• All are poorly understood and not consistently identified
• CNS: headaches, eyestrain, fatigue, loss of appetite, sleep disturbance
• Reproductive system: e.g. impaired spermatogenesis
• Carcinogenesis
– No conclusive evidence of risk (hotly debated)
– Often confused with 60 Hz studies
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Indirect Effects
• Electric shocks or RF burns
– Person contacts a poorly grounded object charged by RF/MW
– Predominantly at lower frequencies (<100 MHz)
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Medical Applications
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Linear Accelerators
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Linear Accelerators
f = 2856 MHz ( ~10 cm)
“S-band”
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Oncology
• RF or MW sources (27 – 2450 MHz) used to heat tumour regions
• Often done in conjunction with radiotherapy or chemotherapy – Some evidence of synergy
• Moderate heating (to ~42oC) may result in inactivation of enzymes that repair sub lethal radiation damage, or increase chemotherapeutic uptake by altering membrane permeability
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Oncology
• Higher levels of heating (to ~46oC) may damage tumour blood vessels
• Uses:
– Cutaneous and metastatic melanoma
– Intraocular tumours
– Breast, prostate, head & neck cancers
– Liver, renal cancers
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Oncology
• For external application, tumour needs to be within ~3cm from an accessible surface
• Interstitial usage, RF energy delivered through small needles – Alternating current sent to probe, which acts
as an antenna
– Great localization, but very invasive
• Limited to solid tumours
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Tumour Ablation
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RF Needle Delivery Systems
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RF Needle Delivery Systems
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RF Needle Delivery Systems
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Physiotherapy
• Principally used for muscle relaxation / analgesia from low level heating
• Direct RF/MW into tissues through external applicators
• US dominates this application now due to concerns over skin heating and personnel protection
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Radiofrequency Neurotomy
• Procedure to reduce back and neck pain
• Heat generated by the RF damages targeted nerves and temporarily interferes with their ability to transmit pain signals
• RF generated using needles embedded in the skin, close to the spine
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Radiofrequency Neurotomy
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Magnetic Resonance Imaging (MRI)
Later…
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Detection and Dosimetry
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Direct Measurement
• Measure E or H directly using antennae
– Generates a voltage
– Signal relayed to a detector (diode or thermal)
– Output of detector proportional voltage2, so output is proportional to irradiance (E2)
– “Square-law responders”
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Antennae
E
H
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Measuring RF/MW
Antenna
Diode detector Thermal detector
Leads
Signal processing
Current, I
Ohmic
heating
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Indirect Measurement
• Measure temperature changes
– Thermocouples (V proportional to temperature change)
– Thermistors (resistance decreases with temperature)
– Resistive temperature devices (resistance increases with temperature)
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Dosimetry
• Dose means: – Temperature increase distribution
– SAR distribution
– Irradiance (to characterize field rather than biological impact)
• Irradiance does not necessarily correlate to biological effect
• Measuring temperature is more biologically relevant, but is more difficult to do in vivo
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Protective Measures
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Electromagnetic Interference
• RF/MW fields can adversely affect the function of devices with electrical conductors
– Pacemakers
– Electrocardiographs (ECG’s)
– Electroencephalographs (EEG’s)
– Electro-explosive devices (remote detonation)
– Electrical arcs in gaseous mixtures (e.g. fluorescent bulb)
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Protective Measures
• Similar to other forms of non-ionizing radiation
– Engineering controls
– Administrative controls
– Personnel controls
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Engineering Controls
• Leakage suppression
– Gaskets and seals to prevent RF from being emitted in unintended directions
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Engineering Controls Shielding
• Building materials
– Attenuate through reflection and absorption
Material/Construction
Component
SHF Range (dB) UHF Range (dB)
Major brick wall (0.7 m) 20 12
Internal plaster wall (0.15 m) 10-12 2.5
Wooden board (30 mm) 1-2.5 1-2.5
Window glass (3 mm) 1-3 ---
Window with frame 4.5 3
Window with double frame 7 3.5
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Engineering Controls Shielding
• Thin metal sheets
– Strong attenuators (0.05 mm > 100 dB)
• Transparent thin films
– Allow viewing while strongly attenuating RF/MW
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Engineering Controls Shielding
• Screening
– Most common form of shielding
– Attenuation in dB expressed as either:
• Attenuation by screening:
a
ar
e
ashieldedE
unshieldedE
2
1
83.0ln
1
2
r
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Engineering Controls • Safety interlocks
– De-energize RF/MW emitting system when people are in the restricted area
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Administrative Controls
• Design the equipment/area to comply with exposure limits
• Specification of “controlled” versus “uncontrolled” areas
• Regular monitoring of RF/MW fields – Ensures proper operation over time
• Monitoring of individuals – Passive monitoring of locations and duration
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Personnel Controls
• Personal shielding is NOT recommended
– Reflections may be a hazard to others
– Electrical arcing may occur
• Personal monitors not typically used
– Unreliable due to calibration problems, temporal stability
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Exposure Standards
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Exposure Standards
• Many
– World Health Organization
– ICNIRP 2009 (Europe)
– FCC, OSHA (USA)
– Safety Code 6 (Canada)
• FDA, Health Canada have a say on medical devices as well
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Safety Code 6
• 2009 most current version
• “Limits of Exposure to Radiofrequency Fields at Frequencies from 10 kHz – 300 GHz”
• Regulations for E and H field strengths
– Occupational AND “general population”
• Maximum SAR levels, contact current limits
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Safety Code 6
• Specifies maximum levels of human exposure over the range 3 kHz to 300 GHz to prevent adverse health effects
• Specifies maximum allowable RF contact and induced body currents
• Provides guidance for evaluating RF exposure levels
• Limited in scope than the original 1999 version
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“Controlled Environments”
• All conditions must be satisfied, otherwise classified as “Uncontrolled”
1. RF intensities have been adequately characterized
2. Exposure only to persons who are aware of the potential for exposure and cognizant of the intensity of RF exposure
3. Exposure only to persons who are aware of the potential health risks associated with the exposure and whom can control their risk using mitigation strategies
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SAR Limits
• SAR limits take precedence from 100 kHz to 6 GHz and SHALL NOT be exceeded
• SAR should be determined if exposure occurs less than 20 cm from the source
• SAR may be estimated through measurement or computation
• Measurements of electric field strength or power density are sufficient in the far field
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SAR Limits
• Recommendation: SAR limit for the eye also 0.4, 0.2 W/kg in controlled/uncontrolled
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Contact Current Limits
• No object an individual may come into contact with shall be energized by electromagnetic radiation to such an extent that the maximum current flow through a human body exceeds the specified values – May cause tingling or warm sensation, but will
not cause pain or an RF burn (controlled environment)
– Measured using an electric circuit with same impedance as the human body
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Contact Current Limits
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Contact Current Limits
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Contact Current Limits
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Field Strength Limits • Individuals SHALL NOT be exposed to certain
levels of either SAR or induced currents in the body – Recommended limits for power density and E/H
fields also included so that the regulatory SAR limits are not exceeded
• If multiple frequencies are present then the relative contributions are summed
• Quantities averaged over any 0.1 hour period (up to 15 GHz) and spatially averaged over an area approx same size as a human body (centre is maximum of the field in that area)
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Controlled Environment Field Limits
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Uncontrolled Environment Field Limits
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Field Limits
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Warning Signs
Placed on all RF/MW
devices
Placed as necessary to
indicate an irradiance
between controlled and
uncontrolled limits
Placed as necessary to
indicate an irradiance
above controlled
limits
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Emission Standards
• Radiation Emitting Devices regulations
– Primarily on microwave ovens
• < 10 W/m2 at 5 cm from the surface
• X-ray exposure < 0.5 mR/h at 5 cm from the surface