OMP Radiation Physics

image spatial resolution formula (lp/mm)

(lp/mm) = 1/(2* voxel sixe (mm/voxel))

Energy of Auger Electron

difference between electron shell vacancy energies minus Auger electron binding energy

Photodisintegration

direct interaction with the nucleus of the atom, causing a state of excitement within the nucleus, followed by the emission of a neutron

a harder energy spectrum implies a ____ HVL

greater

at the surface, KERMA is ___ than absorbed dose

greater

a photon spectrum with less low energy components means what?

harder spectrum, more filtration, higher HVL

thermionic emisson

heated element (cathode) generates free electrons

Triplet production

high energy photon passes near an orbital electron ejecting the electron and forming an additional electron and positron

when would a larger xray focal spot be desired

high mAs needed to help dissipate heat

what type of EM radiation can be blocked by a wire mesh

microwaves

mg-Radium equivalent

the mass of radium that will produce the same exposure rate as that from the radioactive source of interest at the same distance

why do neutrons have a high radiation weighing factor

they transfer large amounts of energy to protons which have a high LET

how does detector crystal thickness relate to spatial resolution

thicker detector --> less spatial resolution (because of increased scintillation photon scatter)

isotope

Atoms of the same element that have different numbers of neutrons

mg-Radium equivalent equation

YmgRaeq = X(mCi) * (Gamma(x) / Gamma(Ra-226))

in a 180 degree Compton scatter, the photon retains how much energy

0.255 MeV

HVL formula

0.693/mu

Effective half life equation

1 / effective = 1/physical + 1/biological

minimum pair production energy

1.022 MeV

Co-60 mean energy

1.25 MeV

mean energy of a clinical kV photon beam

1/2-2/3 Emax

mean energy of MV beam

1/3 Emax

at 10 MeV, which effect dominates

10 MeV

photodisintegration energy threshold

10 MeV

Co-60 Exposure Rate Constant

13.07 [r.cm2/mCi.hr]

Ra-226 half life

1600 years

minimum pair production energy with an electron

2.04 MeV

PET axial resolution

3-4 mm

therapy proton beam energy range

30-250 MeV

Ir-192 Exposure Rate Constant

4.69 [R.cm2/mCi.hr]

Ra-226 exposure rate constant

8.25 [R.cm2/mCi.hr]

Well counters have approximately what geometric efficiency?

93%

Bremsstrahlung efficiency

9e-10 * Z * E

1 mg Ra eq in mCi

= 0.98 mCi

Bragg-Gray Cavity Theory Assumptions

Assumptions: a. Energy of secondary electrons created inside the cavity is deposited locally (large cavity) b. Secondary electron spectrum is unchanged by cavity presence (small cavity) c. all electrons causing ionization in the cavity arise from the phantom material

the term pristine peak refers to

Bragg peak

what interaction is used to create clinical kV photon beams

Bremsstrauhlung

which theory extends the Spencer-Attix theory to large cavities

Burlin Cavity Theory

at 1 MeV, which effect dominates

Compton

R90 (cm) for an electron beam

E(MeV) / 3.2

Rp (cm) for electron beam

E(MeV)/2

Rt (cm) for electron beam

E(MeV)/3 (80-90% isodose line)

mean energy of electron beam at depth, d

E(d) = E0[ 1 - (d/Rp)]

isomeric transition

Gamma decay- excited nucleus releases energy in the form of the gamma ray. Z, N, and A all stay the same. Most common is 99mTc --> 99Tc + gamma

SI unit of KERMA

Gy

which radionuclide loses 1% of its activity per day

Ir-192

which electron shell has the highest binding energy

K

transmittance from multiple films

N*T

optical density of N films, each with transmittance T

OD = -log10(N*T)

Power, Current, Voltage relationship

P [W] = I [A] X V [V]

how to calculate PDD of rectangular field

PDD(x,y) = sqrt[PDD(x,x) * PDD(y,y)]

first daughter product of Ra-226

Radon

absorption edge

Represents an abrupt increase in attenuation due to the photon energy being equal or greater than the binding energy of each electron shell

cut-off energy and CSDA are introduced in the

Spencer-Attix Theory

which type of charged particle equilibrium exists in reality

TCPE (not CPE)

TERMA vs. KERMA

TERMA includes energy losses due to scattering and KERMA does not

effective energy

The monoenergetic equivalent of an x-ray beam that would give the same HVL

transformer law

Vs/Vp = Ns/Np

what causes sharp peaks in xray spectra

absorption edges where an inner shell (usually k) electron is ejected and char. xrays are emitted as outer shell electrons descend to the vacancy

primary decay mode of Ra-226

alpha

in a kV beam generator, the target acts as the

anode

isotone

atoms that have the same number of neutrons but different numbers of protons

components of PDD curve

attenuation, inverse square law, build-up

primary mode of decay Ir-192

beta-

primary mode of decay for Co-60

beta-

primary mode of decay for Cs-137

beta-

where is KERMA greater than dose

build-up region

Where does thermionic emission occur?

cathode

for equal peak voltage, which type of xray generator produces the highest effective voltage

constant potential

geometric efficiency formula

eg = A/(4*pi*r^2)

what causes build-up region

electrons liberated upstream do not deposit sufficient energy to make up for locally liberated electrons depositing energy downstream

Fluence

energy delivered per unit area, measured in J/cm2

2 isomers vary in

energy state

for constant potential, how is the effective voltage related to the peak voltage

equal

metastable state

excited state of the nuclei of an isotope that lasts long enough after a or B emission for the isotope to be separated from the parent isotope

Exposure rate constant

exposure rate in air due to a small unit source of activity at a standard distance. Also called the gamma-factor

what causes the low intensity region at low energies on an xray spectrum curve

filtration and self-attenuation in the target

in an xray tube, electrons travel from where to where

from the cathode to the anode

increased width of CT collimator detector ____ spatial resolution

improves

increasing photon beam energy will ____ the penumbra

increase

how does increasing xray tube focal spot effect penumbra

increases

in Compton scattering, as photon energy increases, the efficiency of the transfer of energy to the electron ____

increases

how does ultrasound wave velocity relate to frequency

independent

photoelectric effect occurs with which electrons

inner shell

term for transition a daughter nuclide undergoes in changing from an excited to a ground state

isomeric transition

KERMA is ____ than absorbed dose at dmax

less

after dmax, KERMA is ___ than absorbed dose

less

Nyquist frequency

limit on the highest spatial frequency that can be accurately imaged. Equal to 1/2 the sampling frequency

pair production Z dependence

linear

for phased potential generators, how does the effective voltage related to the peak potential

lower

in reality, when is collisional KERMA equal to absorbed dose

never

Compton dependence on Z

no dependence, depends on electron density

k-edges are caused by

photoelectric effect

competing modes of decay to increase n/p ratio

positron decay and electron capture

what causes PET resolution

positrons travel a few mm before being annihilated and the gamma rays do not travel perfectly 180 degrees from each other

Flux

rate of energy flow through an area per unit time J/cm^2*s

purpose of dual light pipe design for scintillators

remove background and Cherenkov signal

Spencer-Attix theory works for ___

small cavities

(larger/smaller) focal spot increases CT geometric efficeny

smaller

well counters use what type of detector

sodium iodide crystal scintillator