SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4280498723> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W4280498723 abstract "In laser-driven plasma wakefield accelerators, the accelerating electric field is orders of magnitude stronger than in conventional radio-frequency particle accelerators, but the dephasing between the ultrarelativistic electron bunch and the wakefield traveling at the group velocity of the laser pulse puts a limit on the energy gain. Quasi-phase-matching, enabled by corrugated plasma channels, is a technique for overcoming the dephasing limitation. The attainable energy and the final properties of accelerated electron beams are of utmost importance in laser wakefield acceleration (LWFA). In this work, using two-dimensional particle-in-cell simulations, the effect of the driving pulse duration on the performance of quasi-phase-matched laser wakefield acceleration (QPM-LWFA) is investigated. It is observed that for a pulse duration around half the plasma period, the maximum energy gain of the beam electrons finds its peak value. However, the results show that for a pulse of that duration the collimation of the bunch is much worse, compared to the case where the pulse duration is twice as long. Furthermore, the dynamics of the laser pulse and the evolution of the quality of the externally-injected electron bunch are studied for a symmetric pulse with sine-squared temporal profile, a positive skew pulse (i.e., one with sharp rise and slow fall), and a negative skew pulse (i.e., one with a slow rise and sharp fall). The results indicate that for a laser pulse with an appropriate pulse length compared with the plasma wavelength, the wakefield amplitude can be greatly enhanced by using a positive skew pulse, which leads to higher energy gain. Initially, this results from the stronger ponderomotive force associated with a fast rise time. Later, due to the distinct evolution of the three pulses with different initial profiles, the wakefield excited by the positive skew pulse becomes even stronger. In our simulations, the maximum energy gain for the asymmetric laser pulse with a fast rise time is almost two times larger than for the temporally symmetric laser pulse. Nevertheless, stronger focusing and defocusing fields are generated as well if a positive skew pulse is applied, which degrade the collimation of the bunch. These results should be taken into account in the design of miniature particle accelerators based on QPM-LWFA." @default.
W4280498723 created "2022-05-22" @default.
W4280498723 creator A5014821952 @default.
W4280498723 creator A5061712969 @default.
W4280498723 creator A5069988378 @default.
W4280498723 date "2022-05-17" @default.
W4280498723 modified "2023-10-14" @default.
W4280498723 title "Controlling the characteristics of injected and accelerated electron bunch in corrugated plasma channel by temporally asymmetric laser pulses" @default.
W4280498723 cites W1562752809 @default.
W4280498723 cites W1966290154 @default.
W4280498723 cites W1971527512 @default.
W4280498723 cites W1975585334 @default.
W4280498723 cites W1985795799 @default.
W4280498723 cites W1986882645 @default.
W4280498723 cites W1992961846 @default.
W4280498723 cites W1996509315 @default.
W4280498723 cites W1999599654 @default.
W4280498723 cites W2006748972 @default.
W4280498723 cites W2010725995 @default.
W4280498723 cites W2018199553 @default.
W4280498723 cites W2032913201 @default.
W4280498723 cites W2035607724 @default.
W4280498723 cites W2049814652 @default.
W4280498723 cites W2051455083 @default.
W4280498723 cites W2052872696 @default.
W4280498723 cites W2055959505 @default.
W4280498723 cites W2056377803 @default.
W4280498723 cites W2059407213 @default.
W4280498723 cites W2059970562 @default.
W4280498723 cites W2064339003 @default.
W4280498723 cites W2072842422 @default.
W4280498723 cites W2073481645 @default.
W4280498723 cites W2075666369 @default.
W4280498723 cites W2076963625 @default.
W4280498723 cites W2078529747 @default.
W4280498723 cites W2081599778 @default.
W4280498723 cites W2085109236 @default.
W4280498723 cites W2093012446 @default.
W4280498723 cites W2099140795 @default.
W4280498723 cites W2102040337 @default.
W4280498723 cites W2116066407 @default.
W4280498723 cites W2124337417 @default.
W4280498723 cites W2126642251 @default.
W4280498723 cites W2132477339 @default.
W4280498723 cites W2133533080 @default.
W4280498723 cites W2161342189 @default.
W4280498723 cites W2162634818 @default.
W4280498723 cites W2204433091 @default.
W4280498723 cites W2223920794 @default.
W4280498723 cites W2249727009 @default.
W4280498723 cites W2264582274 @default.
W4280498723 cites W2313532951 @default.
W4280498723 cites W2435389992 @default.
W4280498723 cites W2511814537 @default.
W4280498723 cites W2559435889 @default.
W4280498723 cites W2580767461 @default.
W4280498723 cites W2596446027 @default.
W4280498723 cites W2769938796 @default.
W4280498723 cites W2916648109 @default.
W4280498723 cites W2996877444 @default.
W4280498723 cites W3007729065 @default.
W4280498723 cites W3044427473 @default.
W4280498723 cites W3184345190 @default.
W4280498723 cites W3207150773 @default.
W4280498723 cites W4229966095 @default.
W4280498723 doi "https://doi.org/10.1038/s41598-022-11955-6" @default.
W4280498723 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35581299" @default.
W4280498723 hasPublicationYear "2022" @default.
W4280498723 type Work @default.
W4280498723 citedByCount "1" @default.
W4280498723 countsByYear W42804987232023 @default.
W4280498723 crossrefType "journal-article" @default.
W4280498723 hasAuthorship W4280498723A5014821952 @default.
W4280498723 hasAuthorship W4280498723A5061712969 @default.
W4280498723 hasAuthorship W4280498723A5069988378 @default.
W4280498723 hasBestOaLocation W42804987231 @default.
W4280498723 hasConcept C117896860 @default.
W4280498723 hasConcept C120665830 @default.
W4280498723 hasConcept C121332964 @default.
W4280498723 hasConcept C147120987 @default.
W4280498723 hasConcept C169150495 @default.
W4280498723 hasConcept C184779094 @default.
W4280498723 hasConcept C185544564 @default.
W4280498723 hasConcept C198861627 @default.
W4280498723 hasConcept C2780167933 @default.
W4280498723 hasConcept C49023278 @default.
W4280498723 hasConcept C49063409 @default.
W4280498723 hasConcept C520434653 @default.
W4280498723 hasConcept C62520636 @default.
W4280498723 hasConcept C74650414 @default.
W4280498723 hasConcept C82706917 @default.
W4280498723 hasConcept C94915269 @default.
W4280498723 hasConceptScore W4280498723C117896860 @default.
W4280498723 hasConceptScore W4280498723C120665830 @default.
W4280498723 hasConceptScore W4280498723C121332964 @default.
W4280498723 hasConceptScore W4280498723C147120987 @default.
W4280498723 hasConceptScore W4280498723C169150495 @default.
W4280498723 hasConceptScore W4280498723C184779094 @default.
W4280498723 hasConceptScore W4280498723C185544564 @default.
W4280498723 hasConceptScore W4280498723C198861627 @default.