Keywords for EPAC'98

(Choose up to 5)

accelerationelectromagnetic-fields laserradiation
accelerator-theoryelectron latticeradio-frequency
accumulationelectrostatic-devices leptonradio-frequency-quadrupole
alignmentemittance light-ionradioactivity
antiprotonenergy-calibration linacrecirculation
backgroundextraction linear-colliderresonance
beam-beam-effectsfactory linear-dynamicsrf-structure
beam-coolingfeedback longitudinal-dynamicsscattering
beam-loadingfibre-optics luminositysecondary-beams
beam-lossesfocusing magnet-designseparation-scheme
beam-transportfree-electron-laser man-machine-interfaceseptum
beat-waveground-motion medical-acceleratorssextupole
betatrongun micro-particlesshielding
boosterh-minus microtronsimulation
brightnesshadron monitoringsingle-bunch
brillianceheavy-ion multi-bunch-effectssite
bunchinghigher-order-mode multipolespace-charge
cathodeimpedance neutral-beamsstorage-ring
chromatic-effectsincoherent-effects non-linear-dynamicssuperconducting-magnet
civil-engineeringinduction octupolesuperconducting-rf
closed-orbitindustrial-accelerators operational-performancesuperconductivity
coherent-effectsinjection optical-matchingsurvey
collective-effectsinsertion opticssynchro-cyclotron
colliderinsertion-device permanent-magnetsynchrotron
collimationinstrumentation photonsynchrotron-radiation
controlsinteraction-region pick-uptandem-accelerator
couplinginverse-free-electron-laser plasmatarget
cryogenicsion polarizationtransverse-dynamics
cyclotronion-effects positronundulator
dampingion-source power-supplyundulator
diagnosticsisotope-production protonvacuum
dipolekaon pulse-stretchervan-der-graaf
dumpingkicker pulsed-powerwakefield
dynamic-apertureklystron quadrupolewiggler

In addition, names of machines e.g. LHC, BESSYII may be used.