000058325 001__ 58325
000058325 005__ 20140130005901.0
000058325 0247_ $$2DOI$$a10.1134/S1547477112020045
000058325 035__ $$9SPIRESTeX$$zAzaryan:2012zz
000058325 100__ $$aAzaryan, N.S.$$uDubna, JINR
000058325 245__ $$aComputation of single-cell superconducting niobium cavity for accelerator of electrons and positrons
000058325 269__ $$c2012
000058325 300__ $$a22
000058325 520__ $$9Springer$$aComputations of the accelerator section of the International Linear Collider (ILC), which consists of superconducting niobium cavities, are performed for conditions of the maximum energy transfer to electrons that travel along the cavity axis. A mathematical model and software packages are created for the computation of the electric characteristics and profile of a single-cell cavity. A computer-based synthesis of the cavity shape that yields the required electric characteristics is performed. The promising design variants of a single-cell cavity, with which a quality factor of 10(10) is provided at a working frequency of 1.3 GHz, are found to optimize the construction and manufacture of a single-cell cavity. The electric characteristics of a chain of single-cell cavities are computed.
000058325 65017 $$2INSPIRE$$aAccelerators
000058325 695__ $$2INSPIRE$$aelectron: accelerator
000058325 695__ $$2INSPIRE$$acavity
000058325 695__ $$2INSPIRE$$asuperconductivity
000058325 695__ $$2INSPIRE$$aILC Coll
000058325 695__ $$2INSPIRE$$aniobium
000058325 695__ $$2INSPIRE$$aprogramming
000058325 700__ $$aBaturitsky, M.A.$$uMinsk, High Energy Phys. Ctr.
000058325 700__ $$aBudagov, Yu.A.$$uDubna, JINR
000058325 700__ $$aGlagolev, V.V.$$uDubna, JINR
000058325 700__ $$aDemin, D.L.$$uDubna, JINR
000058325 700__ $$aKizhlai, I.N.$$uBelarus State U.
000058325 700__ $$aKolosov, S.V.$$uBelarus State U.
000058325 700__ $$aKuraev, A.A.$$uBelarus State U.
000058325 700__ $$aPopkova, T.L.$$uBelarus State U.
000058325 700__ $$aRak, A.O.$$uBelarus State U.
000058325 700__ $$aSinitsyn, A.K.$$uBelarus State U.
000058325 700__ $$aTrubnikov, G.V.$$uDubna, JINR
000058325 700__ $$aShirkov, G.D.$$uDubna, JINR
000058325 773__ $$xPhys. Part. Nucl. Lett. 9 (2012) 150-162
000058325 773__ $$xPisma Fiz. Elem. Chastits At. Yadra (2012) No. 2(172) 247-268
000058325 909CO $$ooai:jdsweb.jinr.ru:58325$$pglobal
000058325 961__ $$x2012-04-27
000058325 961__ $$c2012-04-27
000058325 970__ $$aSPIRES-9577092
000058325 980__ $$aCORE
000058325 980__ $$aHEP