By Jean-Claude Bünzli and Vitalij K. Pecharsky (Eds.)
Handbook at the Physics and Chemistry of infrequent Earths is a continual sequence of books masking all facets of infrequent earth technology, together with chemistry, lifestyles sciences, fabrics technological know-how, and physics.
The major emphasis of the instruction manual is on infrequent earth parts [Sc, Y and the lanthanides (La via Lu)], yet every time correct, info can be incorporated at the heavily comparable actinide components.
The person chapters are accomplished, wide, up to date, serious stories written through hugely skilled invited specialists. The sequence, which used to be began in 1978 by means of Professor Karl A. Gschneidner Jr., combines and integrates either the basics and functions of those parts, now publishing volumes a year.
- Individual chapters are entire, wide, serious stories relating to infrequent earths
- Contributions are written by means of hugely skilled, invited experts
- Up-to-date overviews of advancements within the field
- Includes replace on a number of the heavily similar actinide parts
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This quantity involves lecture notes and chosen contributed papers awarded on the overseas summer season institution on New advancements in Semiconductor Physics held on the college of Szeged, July 1-6, 1979. the foremost a part of the contributions during this quantity is expounded to the recent experimental technics and theoretical rules utilized in learn of recent semiconductor fabrics, in most cases III-V semiconductors.
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Extra info for Including Actinides
159 optical refrigeration 45, ch. 265, p. 179 organic synthesis 8, ch. 57, p. 335 organometallic compounds 7, ch. 53, p. 446 – arene-bridged compounds 45, ch. 266, p. 261 – divalent samarium, in 6, ch. 50, p. 525; 36, ch. 230, p. 393 – divalent ytterbium, in 6, ch. 50, p. 525 – low valent 40, ch. 246, p. 241 – tetravalent cerium, in 36, ch. 229, p. 281 oxidation – reduction properties 18, ch. 122, p. 239 oxides – aluminates 39, ch. 242, p. 113 – binary 3, ch. 27, p. 337; 18, ch. 125, p. 413 – gallates 39, ch.
159 Q quantum computing 46, ch. 267, p. 1 quantum information processing (QIP) 46, ch. 267, p. 1 quantum memory 46, ch. 267, p. 1 quasicrystalline, Al- and Mg-based systems 24, ch. 161, p. 83 qubit 46, ch. 267, p. 1 R radiative process, in NIR-emitting complexes 47, ch. 269, p. 1 Raman scattering of cuprates 31, ch. 203, p. 509 rare-earth doped crystals – spectroscopy 46, ch. 267, p. 1 recycling of rare earths 43, ch. 255, p. 159 redox reactions – arene-bridged complexes 45, ch. 266, p. 261 – in aqueous solutions 15, ch.
Phosphorescence is now often complemented with long lasting, leading to the abbreviation long-lasting phosphorescence (LLP). The same abbreviation can also be used for the material itself, as it is also encountered as long-lasting phosphor. It is only in the past 5 years that persistent luminescence gained popularity. Unfortunately, its obvious abbreviation is PL, which is normally used for photoluminescence and thus would lead to confusion. The abbreviation PLUM has been suggested, but it is not frequently used.
Including Actinides by Jean-Claude Bünzli and Vitalij K. Pecharsky (Eds.)