scintillator : Related Words Words similar in meaning to scintillator
- scintillate«
- light output«
- scintillators«
- scintillation«
- organic scintillators«
- inorganic crystal«
- scintilla«
- n decay time«
- photon«
- electron«
- particle«
- plastic scintillators«
- glow«
- scintillation light«
- anticounter«
- energy«
- activator«
- scintillation process«
- scintillation photon«
- decay time«
- airtight enclosure«
- fluor«
- detection«
- slow component«
- incoming particle«
- γ ray«
- electron level«
- wavelength shifter«
- bismuth germanate«
- stopping power«
- excitation«
- gamma ray«
- scintillator material«
- vibrational level«
- neutron«
- detector«
- scintillation detector«
- radiation«
- photons/kev γ«
- fast timing application«
- energy resolution«
- temperature«
- hygroscopic«
- scintillation counter«
- fluorescence«
- activator impurity«
- short decay time«
- emission«
- cerium«
- z material«
- light yield«
- fast component«
- crystal«
- plastic scintillator«
- application«
- wavelength«
- incident particle«
- density«
- density material«
- property«
- pair production«
- excitons«
- heavy ion«
- compton scattering«
- pmma«
- valence band«
- photomultiplier tube«
- phosphorescence«
- γ-quanta«
- zn screen«
- t0nbsp&→ s0 transition«
- s*nbsp&→ s0 transition«
- photons/kev«
- gaseous scintillators«
- aromatic plastic«
- conduction band«
- thallium«
- photoelectric effect«
- popop«
- detector dead«
- nanosecond«
- internal degradation«
- inorganic scintillators«
- light«
- material«
- type«
- scintillating material«
- pulse shape discrimination«
- impurity center«
- scintillation material«
- maximum emission«
- vibration environment«
- lyso«
- optical photon«
- detector response«
- wireline logging«
- ray detection«
- terphenyl«
- organic crystal«
- light guide«
- baf2«
- particle identification«
- base«
- lithium«
- sir william crookes«
- green region«
- solvent«
- decay constant«
- efficiency«
- high density«
- bgo«
- sodium iodide«
- incident radiation«
- durability«
- anthracene«
- temperature application«
- electrical pulse«
- ppo«
- ct scanner«
- common base«
- moisture«
- single atom«
- photo«
- transparency«
- disadvantage«
- fraction«
- molecule«
- other application«
- positron emission tomography«
- nai«
- nuclear reaction«
- xenon«
- ionization«
- oil exploration«
- organic solvent«
- boron«
- linearity«
- visible light«
- ultraviolet«
- response«
- cross section«
- additive«
- hole«
- resolution«
- transition«
- γ detection«
- α-survey instrument«
- α-particle monitor«
- α particle detection«
- ~8 photons/kev«
- visible light transparency«
- typical solute«
- tungstate scintillators«
- triethylbenzene«
- their response time«
- their luminescence«
- temperature rugged pmts«
- t0-t0 interaction«
- t0 molecule«
- such scintillators«
- stopping power due«
- stable light output«
- spectrum shifter«
- solid polymer matrix«
- slow scintillation light«
- singlet excitation«
- single scintillation event«
- signal production efficiency«
- scintillation solute«
- scintillation decay time«
- rugged polycrystalline form«
- resistive pmts«
- relative amplitude a«
- radiations«
- radiationless deexcitation process«
- pure inorganic scintillator«
- pulse height discrimination«
- prompt component«
- primary fluorescent emitter«
- practical scintillator«
- positron emission tomography machine«
- polyvinyl xylene«
- polyvinyl tetrahydronaphthalene«
- polyvinyl naphthalene«
- polyvinyl diphenyl«
- polyphenyl hydrocarbon«
- polymethyl«
- pmt window«
- pmt signal«
- pmt electric pulse«
- plastic scintillators due«
- photons/kev.«
- phoswiches capable«
- phenylcyclohexane«
- pair production proportional«
- oxadiazole aryls«
- other inorganic alkali halide crystal«
- organic liquids«
- organic crystals«
- optimum coupling«
- neutron detection efficiency«
- negligible transparency«
- natural 176lu«
- naked eye measurement«
- most crystal scintillators«
- monitoring nuclear material«
- modern scintillation detector«
- mixed radiation«
- many scintillators«
- lutetium iodide«
- luminophors«
- lower optical yield«
- lower light yield«
- lower energy γ-rays«
- low gamma output«
- low energy β particle«
- low backscattering«
- low activity counting application«
- lii(eu«
- light output saturation«
- length/shape«
- it maximum wavelength«
- it light output«
- intrinsic background«
- inorganic crystals«
- increased photo«
- homeland security radiation detector«
- heavy ions«
- heavy ion de/dx detector«
- glass silicate«
- glass scintillators«
- glass detector«
- fluors«
- fast scintillation light«
- fast operation speed«
- fast component relative«
- fast coincidence circuit«
- expensive furnace«
- excellent light output«
- energy resource exploration«
- energy loss dependence«
- energy loss de/dx«
- electron microscopy application«
- direct t0nbsp&→ s0 transition«
- detector scintillator«
- delayed component«
- decay time ≈30 n«
- common glass scintillators«
- common fluor«
- cesium iodide doped«
- butylphenyl)-5-(4’’-biphenylyl)-1,3,4-oxadiazole«
- bromide doped«
- brightest scintillators«
- bialkali pmts«
- bialkali pmt.«
- benzene ring structure«
- backscatterings«
- aromatic hydrocarbon compound«
- anthracene light«
- alkali crystal«
- addition labr3(ce«
- >5 mev«
- >0.5 mev«
- -molecular orbitals«
- wide range«
- proton«
- zinc tungstate«
- vacuum photodiodes«
- superior energy resolution«
- style crt computer monitor«
- spectral sensitivity range«
- shorter decay time«
- short wavelength emission«
- reduced light output«
- recoil proton«
- ray imaging application«
- quick signal«
- position sensitivity«
- photocathode sensitivity«
- observational difference«
- lutetium oxyorthosilicate«
- lower z«
- energy γ-quanta«
- decay characteristic«
- coincidence measurement«
- butyl pbd«
- boron silicate«
- polymer«
- scintillation efficiency«
- ray security«
- polyvinyltoluene«
- partial energy«
- other common base«
- nuclear camera«
- metastable impurity«
- lowest triplet«
- lanthanum chloride«
- free valence electron«
- electronic light sensor«
- electron conversion efficiency«
- dosimetry instrument«
- cadmium tungstate«
- bgo.«
- ion«
- silicon photomultipliers«
- polycrystalline powder«
- photoelectric process«
- particle heavier«
- molecular vibrational mode«
- lanthanum bromide«
- ionizing power«
- gamma rays«
- compact detector«
- bulk polymerization«
- bases«
- avalanche mode«
- thicker slab«
- scintillating bolometer«
- reflector material«
- purity chemical«
- liquid scintillation«
- linearity assumption«
- larger wavelength«
- gaseous detector«
- excellent linearity«
- array configuration«
- dependence«
- such array«
- subsequent multiplication«
- silicon photomultiplier«
- short rise time«
- liquid scintillators«
- forbidden gap«
- exciton band«
- energy particle physic experiment«
- decay time constant«
- bremsstrahlung photon«
- yttrium aluminum garnet«
- vibration application«
- single crystal form«
- silicon photodiodes«
- mechanical ruggedness«
- uv band«
- interaction cross section«
- gadolinium oxysulfide«
- excited level«
- electromagnetic shower«
- efficient detection«
- cesium iodide«
- material size«
- electromagnetic component«
- barium fluoride«
- uniform collection«
- spinthariscope«
- energy spacing«
- energy peak«
- noble gas helium«
- hygroscopicity«
- form«
- radiation hardness«
- material rich«
- reduced production cost«
- light collection«
- excited singlet«
- alkali metal halide«
- polyethylene naphthalate«
- total absorption spectroscopy«
- thin screen«
- radiative decay«
- calcium tungstate«
- neutron cross«
- half maximum«
- oxazole«
- nuclear physic experiment«
- liquid«
- medical imaging application«
- decalin«
- coincidence detector«
- neutron detection«
- attenuation length«
- temperature furnace«
- sufficient voltage«
- oxygen«
- array«
- tungstate«
- survey meter«
- optical transition«
- luminescent material«
- effect result«
- electronic level«
- strong function«
- detection efficiency«
- angle scattering«
- gamma spectroscopy«
- incoming photon«
- equal energy«
- earth metal«
- fission fragment«
- event rate«
- ratio«
- positron annihilation«
- pure crystal«
- temperature sensitivity«
- stilbene«
- operational parameter«
- linear superposition«
- measurement«
- intrinsic activity«
- harsh environmental condition«
- spectral sensitivity«
- fast response time«
- photomultipliers«
- practical choice«
- time component«
- rapid process«
- polymer backbone«
- particle energy«
- electronic band structure«
- energy absorption«
- coulomb force«
- light transmission«
- mechanical shock«
- calcium fluoride«
- slow neutron«
- phenomenon«
- spectral range«
- gamma camera«
- zinc sulfide«
- quantum efficiency«
- additional attention«
- rough approximation«
- fluorescent tube«
- photodiodes«
- hole pair«
- liquid solution«
- energy gap«
- visible range«
- gas«
- reduction«
- energy release«
- europium«
- medical diagnostics«
- bremsstrahlung«
- security application«
- light absorption«
- fast response«
- biggest advantage«
- meaningful information«
- birks«
- light emission«
- photodiode«
- exponential decay«
- behavior«
- single photon«
- property similar«
- time measurement«
- thermal neutron«
- gadolinium«
- production capability«
- beta particle«
- resistance«
- nuclides«
- brittleness«
- reaction«
- energy electron«
- fine structure«
- inorganic material«
- time evolution«
- major constituent«
- medical physic«
- copolymer«
- free path«
- naphthalene«
- charge carrier«
- singlet«
- component«
- 420nbsp&nm matching sensitivity curve«
- 2-phenyl-5-(4-biphenylyl)-1,3,4-oxadiazole«
- 1,4-di-(5-phenyl-2-oxazolyl)-benzene«
- 138la«
- 2,5-diphenyloxazole«