該雜志涵蓋了輻射和等離子體科學(xué)的廣泛主題。其貢獻(xiàn)范圍包括:輻射物理學(xué);放射化學(xué)、放射生物學(xué)和醫(yī)學(xué)輻照的物理效應(yīng)，包括對(duì)放射細(xì)胞變性的研究;輻射的光學(xué)、電學(xué)和機(jī)械效應(yīng)以及它們的次要效應(yīng)，例如表面的擴(kuò)散和粒子發(fā)射;等離子體技術(shù)和等離子體現(xiàn)象。在等離子體科學(xué)方面，該雜志涵蓋了聚變、空間和低溫等離子體的所有領(lǐng)域。等離子體該雜志涵蓋了等離子體科學(xué)和技術(shù)的所有領(lǐng)域。論文涉及核聚變理論、模型與實(shí)驗(yàn)、托卡馬克、恒星發(fā)生器、其他核聚變裝置、等離子體平衡與輸運(yùn)、改進(jìn)模態(tài)等。在考慮核聚變能源的同時(shí)，該雜志打算特別強(qiáng)調(diào)能源生產(chǎn)的環(huán)境方面。在空間等離子體上，它涵蓋了電離層、磁層、太陽(yáng)等離子體、輻射帶、太陽(yáng)風(fēng)、空間天氣效應(yīng)以及低層大氣的物理學(xué)。該雜志還涵蓋了實(shí)驗(yàn)室低溫等離子體物理、激光等離子體相互作用、等離子體加速器和等離子體處理技術(shù)的所有領(lǐng)域。輻射主題包括:輻射引起的缺陷的原子和電子特性;這種缺陷對(duì)晶格性質(zhì)和過(guò)程的影響;晶格缺陷方法對(duì)固態(tài)反應(yīng)如聚類、沉淀、激光退火和雜質(zhì)的作用;缺陷動(dòng)力學(xué)在非穩(wěn)態(tài)，如粒子下或電磁輻射，或在快速溫度變化;輻射增強(qiáng)氧化;與非晶態(tài)材料的亞穩(wěn)態(tài)性質(zhì)和表面修飾有關(guān)的問(wèn)題。所有發(fā)表在《輻射效應(yīng)與固體缺陷》上的研究論文都經(jīng)過(guò)了嚴(yán)格的同行評(píng)審，評(píng)審基于編輯的初步篩選和匿名評(píng)審。

The Journal covers a wide range of topics under radiation and plasma sciences. The range of contributions encompasses: radiation physics; radiochemistry, radiobiology and physical effects of medical irradiation, including research on radiative cell degeneration; optical, electrical and mechanical effects of radiation, and their secondary effects such as diffusion and particle emission from surfaces; plasma techniques and plasma phenomena. On plasma science the Journal covers all areas of fusion, space and low temperature plasmas.Plasma The Journal covers all areas of Plasma Science and Technology. It solicits papers on fusion theory, modelling and experiments, tokamak, stellarator, other fusion devices, plasma equilibrium and transport, improved modes, etc. While considering fusion energy the journal intends to give a special emphasis on the environmental aspects of the energy production. On space plasma it covers all areas – ionosphere, magnetosphere, solar plasma, radiation belt, solar wind, space weather effects and also the physics of the lower atmosphere. The Journal also covers all areas of laboratory low temperature plasma physics, laser-plasma interactions, plasma accelerators and plasma processing technology. Radiation Topics covered include: atomic and electronic properties of defects induced by radiation; the influence of such defects on lattice properties and processes; the lattice-defect approach to solid state reactions such as clustering, precipitation, laser annealing and the role of impurities; defect dynamics in a non-steady state such as under-particle or electromagnetic irradiation, or during rapid temperature change; radiation enhanced oxidation; problems associated with the metastable nature of amorphous materials and surface modifications. All research articles published in Radiation Effects and Defects in Solids have undergone rigorous peer review, based on initial screening by the Editor and refereeing by anonymous referees.