ja-en - IAEA

CALCIUM NITRIDES 157 CALDER HALL B-4 REACTOR
CALCIUM NITRIDES
*BT1 calcium compounds
*BT1 nitrides
CALCIUM OXIDES
1996-07-08
*BT1 calcium compounds
*BT1 oxides
RT becquerelite
RT ellsworthite
RT liming
RT melanovanadite
RT oxide minerals
RT pascoite
RT perovskite
RT rauvite
RT tyuyamunite
RT zirconolite
CALCIUM PERCHLORATES
1991-09-16
*BT1 calcium compounds
*BT1 perchlorates
CALCIUM PHOSPHATES
1996-06-28
UF calcium hydroxyapatite
*BT1 calcium compounds
*BT1 phosphates
RT phosphate rocks
CALCIUM SILICATES
1996-11-13
*BT1 calcium compounds
*BT1 silicates
RT epidotes
RT garnets
RT ilvaite
RT kainosite
RT lavenite
RT ranquilite
RT silicate minerals
RT uranophane
CALCIUM SILICIDES
INIS: 2000-05-02; ETDE: 1976-06-07
*BT1 calcium compounds
*BT1 silicides
CALCIUM SULFATES
*BT1 calcium compounds
*BT1 sulfates
RT anhydrite
RT gypsum
RT polyhalite
RT sulfate minerals
RT thermoluminescent dosemeters
CALCIUM SULFIDES
*BT1 calcium compounds
*BT1 sulfides
CALCIUM TUNGSTATES
*BT1 calcium compounds
*BT1 inorganic phosphors
*BT1 tungstates
CALCRETES
INIS: 1994-09-29; ETDE: 1978-06-14
Conglomerate consisting of surficial sand and
gravel cemented in a hard mass by calcium
carbonate. Important host for uranium
deposits in some parts of the world.
(Until September 1994 this concept was
indexed to LIMESTONE.)
*BT1 conglomerates
CALCULATION METHODS
INIS: 1996-07-08; ETDE: 1975-11-11
NT1 adjoint difference method
NT1 approximations
NT2 adiabatic approximation
NT2 born approximation
NT3 coupled channel born
approximation
NT3 dwba
NT2 born-oppenheimer approximation
NT2 brinkman-kramers approximation
NT2 broken-pair approximation
NT2 diabatic approximation
NT2 dirac approximation
NT2 eikonal approximation
NT2 equivalent-photon approximation
NT2 fsc approximation
NT2 guiding-center approximation
NT2 hartree-fock method
NT2 impulse approximation
NT2 ladder approximation
NT2 pade approximation
NT2 random phase approximation
NT2 rosseland approximation
NT2 semiclassical approximation
NT2 spherical harmonics method
NT3 p1-approximation
NT3 p2-approximation
NT3 p3-approximation
NT2 straight-line path approximation
NT2 sudden approximation
NT2 tomonaga approximation
NT2 unitary pole approximation
NT2 wkb approximation
NT2 zero-range approximation
NT1 binary encounter method
NT1 bogolyubov method
NT1 brueckner method
NT1 case method
NT1 chew-low method
NT1 collision probability method
NT1 deterministic estimation
NT1 discrete ordinate method
NT1 dynamic programming
NT1 feynman method
NT1 finite element method
NT2 boundary element method
NT1 generator-coordinate method
NT1 homogenization methods
NT1 iterative methods
NT2 finite difference method
NT2 galerkin-petrov method
NT2 newton method
NT2 runge-kutta method
NT1 k-harmonics method
NT1 lcao method
NT1 linear programming
NT1 lyapunov method
NT1 molecular dynamics method
NT1 molecular orbital method
NT1 moments method
NT1 monte carlo method
NT1 multiple collision method
NT1 n-d method
NT1 nodal expansion method
NT1 nonlinear programming
NT1 omnes-muskhelishvili method
NT1 oseen method
NT1 patterson method
NT1 probabilistic estimation
NT1 response matrix method
NT1 ritz method
NT1 rydberg-klein-rees method
NT1 saddle-point method
NT1 slater method
NT1 tamm-dancoff method
NT1 transfer matrix method
NT1 variational methods
NT2 density functional method
NT2 hsk procedure
NT2 resonating-group method
NT2 schwinger variational method
NT1 wick-chandrasekhar method
NT1 wigner-seitz method
NT1 yvon method
RT algorithms
RT mathematical solutions
RT measuring methods
RT numerical solution
RT sensitivity analysis
calculations (1-dimensional)
USE one-dimensional calculations
calculations (2-dimensional)
USE two-dimensional calculations
calculations (3-dimensional)
USE three-dimensional calculations
calculations (4-dimensional)
USE four-dimensional calculations
calculations (computer)
USE computer calculations
calculations (many dimensions)
USE many-dimensional calculations
CALCULATORS
INIS: 1985-12-10; ETDE: 1978-11-14
Small, often hand-held, devices capable of
carrying out limited logic and arithmetic
operations.
UF pocket calculators
*BT1 digital computers
RT data processing
CALCULI
In biology and medicine only; to be assigned
in coordination with descriptors specifying
their location such as URINARY TRACT,
PANCREAS, etc.
UF gallstones
UF kidney stones
RT kidneys
RT urinary tract
calculus (differential)
USE differential calculus
CALCUTTA CYCLOTRON
INIS: 1983-06-01; ETDE: 1983-03-24
*BT1 heavy ion accelerators
*BT1 variable energy cyclotrons
CALDASITE
*BT1 igneous rocks
*BT1 uranium ores
RT baddeleyite
RT zircon
CALDER HALL A-1 REACTOR
Seascale, Cumbria, United Kingdom.
UF a-1 reactor (calder hall)
*BT1 carbon dioxide cooled reactors
*BT1 magnox type reactors
*BT1 plutonium production reactors
*BT1 thermal reactors
CALDER HALL A-2 REACTOR
Seascale, Cumbria, United Kingdom.
UF a-2 reactor (calder hall)
*BT1 carbon dioxide cooled reactors
*BT1 magnox type reactors
*BT1 plutonium production reactors
*BT1 thermal reactors
CALDER HALL B-3 REACTOR
Seascale, Cumbria, United Kingdom.
*BT1 carbon dioxide cooled reactors
*BT1 magnox type reactors
*BT1 plutonium production reactors
*BT1 thermal reactors