FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2488734560> ?p ?o ?g. }

• W2488734560 endingPage "166" @default.
• W2488734560 startingPage "146" @default.
• W2488734560 abstract "Magnetic molecules represent another interesting area for MQT studies. In this chapter we will describe experiments on spin tunneling in macroscopic crystals of Mn 12 Ac molecules. A Mn 12 Ac molecule has spin 10 and is equivalent to a very small single-domain magnetic particle. A crystal consists of a macroscopic number of molecules arranged in a tetragonal lattice. Spins of the molecules interact weakly with each other and are subject to a very strong uniaxial anisotropy. A Mn 12 Ac crystal is, therefore, equivalent to a large system of identical uniformly oriented magnetic particles, which has been wanted so much by experimentalists. Experiments on Mn 12 Ac [16] are the first experiments on spin tunneling which have been understood quantitatively without any free parameters. Whether the moment of the molecule, 20μ B , is macroscopic enough to allow one to talk about MQT is left to the judgement of the reader. The Mn-12 acetate complex The chemical formula of the manganese acetate complex discussed below is [Mn 12 O 12 (CH 3 COO) 16 (H 2 O) 4 ]·2CH 3 COOH·4H 2 O. We will denote it by Mn 12 Ac. This compound was first synthesized by Liz and characterized by Xray diffraction methods [128]. It forms a molecular crystal of tetragonal symmetry with the lattice parameters a = 1.732 nm and b = 1.239 nm. The unit cell contains two Mn 12 O 12 molecules surrounded by four water molecules and two acetic acid molecules. The structure of the Mn 12 O 12 molecule is shown in Fig. 7.1. The molecule possesses S 4 symmetry." @default.
• W2488734560 created "2016-08-23" @default.
• W2488734560 creator A5010703572 @default.
• W2488734560 creator A5044826611 @default.
• W2488734560 date "1998-08-28" @default.
• W2488734560 modified "2023-10-12" @default.
• W2488734560 title "Tunneling in magnetic molecules" @default.
• W2488734560 doi "https://doi.org/10.1017/cbo9780511524219.008" @default.
• W2488734560 hasPublicationYear "1998" @default.
• W2488734560 type Work @default.
• W2488734560 sameAs 2488734560 @default.
• W2488734560 citedByCount "0" @default.
• W2488734560 crossrefType "book-chapter" @default.
• W2488734560 hasAuthorship W2488734560A5010703572 @default.
• W2488734560 hasAuthorship W2488734560A5044826611 @default.
• W2488734560 hasConcept C120398109 @default.
• W2488734560 hasConcept C121332964 @default.
• W2488734560 hasConcept C171250308 @default.
• W2488734560 hasConcept C192562407 @default.
• W2488734560 hasConcept C26873012 @default.
• W2488734560 hasConceptScore W2488734560C120398109 @default.
• W2488734560 hasConceptScore W2488734560C121332964 @default.
• W2488734560 hasConceptScore W2488734560C171250308 @default.
• W2488734560 hasConceptScore W2488734560C192562407 @default.
• W2488734560 hasConceptScore W2488734560C26873012 @default.
• W2488734560 hasLocation W24887345601 @default.
• W2488734560 hasOpenAccess W2488734560 @default.
• W2488734560 hasPrimaryLocation W24887345601 @default.
• W2488734560 hasRelatedWork W1486421317 @default.
• W2488734560 hasRelatedWork W1971171002 @default.
• W2488734560 hasRelatedWork W2319737364 @default.
• W2488734560 hasRelatedWork W2899084033 @default.
• W2488734560 hasRelatedWork W2935759653 @default.
• W2488734560 hasRelatedWork W3092074615 @default.
• W2488734560 hasRelatedWork W3092610140 @default.
• W2488734560 hasRelatedWork W3105167352 @default.
• W2488734560 hasRelatedWork W54078636 @default.
• W2488734560 hasRelatedWork W2954470139 @default.
• W2488734560 isParatext "false" @default.
• W2488734560 isRetracted "false" @default.
• W2488734560 magId "2488734560" @default.
• W2488734560 workType "book-chapter" @default.