04142nam 22005655 450 991086524590332120240604131214.09783031602078(electronic bk.)978303160206110.1007/978-3-031-60207-8(MiAaPQ)EBC31364700(Au-PeEL)EBL31364700(CKB)32227914300041(DE-He213)978-3-031-60207-8(OCoLC)1438668817(EXLCZ)993222791430004120240604d2024 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierCreation and Accumulation of Radiation Defects in Single Crystals of Magnesium Oxide Research Aims and Methodology /by Anatoly Surzhikov, Elena Lysenko1st ed. 2024.Cham :Springer Nature Switzerland :Imprint: Springer,2024.1 online resource (163 pages)Print version: Surzhikov, Anatoly Creation and Accumulation of Radiation Defects in Single Crystals of Magnesium Oxide Cham : Springer,c2024 9783031602061 1. Structure, Properties, Point Defects and Radiation Defect Formation in Magnesium Oxide Crystals -- 2. Objects and Methods of Research Used in the Study -- 3. Formation of Radiation Defects in MgO Crystals under High-Temperature Proton Irradiation -- 4. Stabilization of Frenkel Defects in Crystals of Magnesium Oxide at Impact Displacement of Ions -- 5. Creation of F+-Centers in Proton Tracks at Low Irradiation Temperatures -- 6. Accumulation of F-Type Color Centers in Crystals of Magnesium Oxide at High Excitation Densities Accelerated Electrons of Subthreshold Energy -- 7. Stabilization of Interstitial Oxygen Ions Formed under the Action of a High-Current Electron Beam in the Crystal Lattice of Magnesium Oxide -- 8. Experimental Study of Interstitial Oxygen Ions in Magnesium Oxide Crystals.The range of problems that can be solved with the use of powerful radiation installations is determined: generation of nanosecond ultrahigh-frequency (microwave) pulses, collective acceleration of charged particles, the implementation of a controlled fusion reaction, and the creation of high-power lasers. In this edition, the questions posed for the SCM were solved using the example of single crystals of magnesium oxide. By the beginning of the authors' work, the structure of the color centers induced by radiation in magnesium oxide, the positions of the maxima of the optical absorption and luminescence bands, as well as the values of their half-widths and the temperature range of stability, were sufficiently established. There is practically no information about the location of internode ions in magnesium oxide crystals, and methods for their registration have not been worked out. These data are particularly important since the efficiency of the accumulation of radiation defects depends to a certain extent on the efficiency of fixing displaced of in the crystal lattice. However, all studies confirming this point of view were carried out using low and medium levels of arousal. The effect of high absorbed radiation energy capacities on the formation and accumulation of radiation defects in magnesium oxide crystals has not been practically studied.MaterialsChemical engineeringCrystallographyMaterials EngineeringChemical Process EngineeringCrystallography and Scattering MethodsMaterials.Chemical engineering.Crystallography.Materials Engineering.Chemical Process Engineering.Crystallography and Scattering Methods.620.11Surzhikov Anatoly1742770Lysenko Elena1380152MiAaPQMiAaPQMiAaPQ9910865245903321Creation and Accumulation of Radiation Defects in Single Crystals of Magnesium Oxide4169449UNINA01281nam2 22003011i 450 UON0033735620231205104244.80620091012d1927 |0itac50 bafreFR|||| |||||ˆLa ‰Chute de l'Empirela lègend de Napolèon (1812-1815)Edouard DriaultParisFèlix Alcan1927VI, 484 p.23 cm.vecchio inventario MR 40055IT-UONSI III STORIAEURD C/0392001UON000670242001 Bibliothèque d'histoire contemporaine001UON003377672001 Napoléon et l'Europepar Edouard Driault210 ParisFélix Alcan215 vv.FRANCIASTORIA1812-1815UONC073537FINapoleone BonaparteUONC038829FIFRParisUONL002984DRIAULTEdouardUONV125340380667Felix AlcanUONV260177650ITSOL20250516RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00337356SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI EUR D C 0392 SI SC 45837 5 0392 vecchio inventario MR 40055Chute de l'empire544837UNIOR