In general the HFI will be anisotropic due to the dipolar interaction, except for systems where the anisotropic part is averaged out (e.g. by molecular motion in solution). Both mechanisms are then combined to form the hyperfine interaction matrix A and the following term is added to the spin Hamiltonia Proceedings of the 14th International Conference on Hyperfine Interactions and 18th International Symposium on Nuclear Quadrupole Interactions (HFI/NQI 2007) held in Iguassu Falls (Puerto Iguazú-Argentina / Foz de Iguaçu-Brasil), 5-10 August 2007, PART I/VI. Volume 175 February 2007. February 2007, issue 1- Hyperfine interactions are at the origin of the spectral hyperfine structure that can be observed with various techniques. The term hyperfine structure refers to small shifts and splittings in the atomic, ionic, or molecular energy levels, which result from the interactions of the nucleus with internally generated electric and magnetic fields The notion hyperfine interaction (hfi) comes from atomic physics, where it is used for the interaction of the electronic magnetic moment with the nuclear magnetic moment. In magnetic resonance this interaction is encountered frequently and is responsible for Hyperfine interaction (HFI), i.e., interaction of electrons with nuclear spins, yields more optimistic estimates. For example, when one of the radicals has nuclei with a magnetic moment, radical spins precess in markedly different MFs. Even if the difference of g-factors is insignificant, RP terms do mix or S-T transitions do occur

- Proceedings of the International Conference on Hyperfine Interactions and their Applications (HYPERFINE 2016), Leuven, Belgium, 3-8 July 2016 Spin fluctuation and local magnetism of isolated Fe impurities in Pd 1−x V x alloys studied by time differential perturbed angular distribution spectroscop
- Hyperfine Interactions is an international journal devoted to research in the border regions of Solid-State Physics Atomic Physics Nuclear Physics and relevant Chemistry. The interactions of atoms..
- Hyperfine interactions Karlheinz Schwarz Institute of Materials Chemistry. TU Wien. Some slides were provided by Stefaan Cottenier (Gent) nuclear point charges interacting with electron charge distribution. hyperfine interaction. all aspects of the nucleus-electron interaction which go beyond an electric point charge for a nucleus. = Definition : electric point charge. electric point charge.
- Hyperfine interactions can be measured, among other ways, in atomic and molecular spectra and in electron paramagnetic resonance spectra of free radicals and transition-metal ions. Applications Astrophysics. The hyperfine transition as depicted on the Pioneer plaque. As the hyperfine splitting is very small, the transition frequencies are usually not located in the optical, but are in the.
- There are many experimental methods that make use of hyperfine interactions. Hyperfinecourse B discusses 10 of them, at a conceptual level. At several places, you'll see and hear experts of a method explaining their tool in lay language. Hyperfinecourse B can be taken as a selfcontained course, if you have a good understanding of the physics of hyperfine interactions (if you don't, take hyperfinecourse A first)
- Hyperfine Interactions in Condensed Matter. Static . Ferromagnets. Paramagnets at low temperatures . Knight Shift . Dynamic. Paramagnets at finite temperatures. Paramagnetische Lösungen. Spinfluctuations in ferromagnets. Static . non-cubic solids (metals, semiconductors,isolators. Defects in cubic solids . Dynamic . Atomic motion in solids, liquids and gases e.g. metal-hydrogen systems.
- Hyperfine Interactions - Journal Impact Der Journal Impact 2019 von Hyperfine Interactions beträgt 0.610 (neueste Daten im Jahr 2020). Im Vergleich zu historischen Journal Impact sank der Journal Impact 2019 von Hyperfine Interactions um 6.15%. Hyperfine Interactions Journal Impact Quartile: Q3

hyperfine interaction all aspects of the nucleus-electron interaction that go beyond the nucleus as an electric point charge. = Definition The so-called hyperfine interaction, which is a sensitive indicator of the conditions in the interior of the analysed material, is used for this method. In addition to the areas of solid state physics and materials research, this research method is also used in the life sciences and the geosciences, in anthropology, medicine and art

Hyperfine Interactions is an international journal devoted to research in the border regions of Solid-State Physics, Atomic Physics, Nuclear Physics and. • Hyperfine coupling: arise from interactions between magnetic nuclei and the electron spin and give information about the delocalization of the unpaired * International conference on HYPERFINE interactions and their applications Organised together with ICAME conference It is our pleasure to welcome you to attend the 3rd International Conference on Hyperfine Interactions and their Applications (HYPERFINE 2021) which will be held in Brasov*, Romania, between the 5th and the 10th of September 2021 Hyperfine interactions : journal devoted to research in the border regions of solid state, atomic and nuclear physic Hyperfine interactions. Common abbreviations: Hyperfine Interact. [DE-600] Hyperfine Interactions (Netherlands) [DE-600] Hyperfine Interactions [DE-600] Hyperfine Interact [iso] Hyperfine Interact [dnlm] Hyperfine Interact [iso] Type: journal: DDC: 530: Keywords(s): Hyperfeinwechselwirkung, Zeitschrift, Online-Ressource, Atomic and Molecular Physics, and Optics, Physical and Theoretical.

** Hyperfine coupling is caused by the interaction between the magnetic moments arising from the spins of both the nucleus and electrons in atoms**. As shown in Figure 1, in a single electron system the electron with its own magnetic moment moves within the magnetic dipole field of the nucleus. Figure 1 The perturbation, called nuclear hyperfine interaction, may be such that it shifts the nuclear energy levels, as is the case in the electric monopole interaction (e0), or such that it splits degenerate states, as afforded by the electric quadrupole interaction (e2) and the magnetic dipole interaction (m1). Only these three kinds of interaction. Hyperfine Interactions and Slow Spin Dynamics in Quasi-isotropic InP-based Core/Shell Colloidal Nanocrystals. Annalisa Brodu. Annalisa Brodu. Debye Institute for Nanomaterials Science, Utrecht University, 3584 CC Utrecht, The Netherlands. More by Annalisa Brodu, Mickael D. Tessier. Mickael D. Tessier . Physics and Chemistry of Nanostructures, Ghent University, 9000 Ghent, Belgium. More by. The **interaction** between the nuclear spin and the electron spin creates a **hyperfine** structure. **Hyperfine** structure **interaction** occurs in paramagnetic structures with unpaired electrons. Therefore, **hyperfine** structure **interaction** is the most important of the fundamental parameters investigated by electron paramagnetic resonance (EPR) spectroscopy

- This lecture is part of an online version of the WIEN2k workshop, offering you a background about this density-functional theory code. More lectures, tutoria..
- g a fully Open Access journal. We will increase the number of articles we publish OA, with the eventual goal of beco
- Hyperfine Interactions. Interaction between the . electromagnetic moments of a nucleus . and electromagnetic fields acting on the nucleus. magnetic HFI. Magnetic field. Electric field . e-μ, Q, I. I = nuclear spin . µ = magn. dipole moment. Q = electric quadrupole moment. electric HFI. μ,
- The interactions of atoms, ions, electrons and nuclei with their environments in solids, liquids, gases, plasmas and directed beams comprise a broad area of physical science in themselves. These interactions also promise unique tools for studying the behavior of many physical, chemical and biological systems. Hyperfine Interaction focuses on the publication of topical issues and proceedings.
- Hyperfine interactions Teilen. Literatur-verwaltung. Direktlink. Zur Merkliste. Lösche von Merkliste. Per Email teilen. Auf Twitter teilen. Auf Facebook teilen. Per Whatsapp teilen. Als RIS exportieren Als BibTeX exportieren Als EndNote exportieren. Medientyp: Elektronische Zeitschrift Titel: Hyperfine interactions Erschienen: Springer Science + Business Media B.V [ Dordrecht [u.a.] ]: Kluwer.
- A. Błachowski, K. Ruebenbauer, J. Przewoźnik, J. Żukrowski, D. Sitko, N.-T. H. Kim-Ngan, A.V. Andreev, Hyperfine interactions on iron in R2−xFe14+2xSi3 (R=Ce, Nd, Gd, Dy, Ho, Er, Lu, Y) compounds studied by Mössbauer spectroscopy, Journal of Alloys and Compounds, 10.1016/j.jallcom.2007.11.080, 466, 1-2, (45-51), (2008)

Hyperfine interactions Veröffentlicht: (1975) Hyperfine interactions Veröffentlicht: (1978) Magnetization and hyperfine interactions in amorphous ferromagnetic alloys von: Dey, Subrata Veröffentlicht: (1981) Topics in current physics, 31 Hyperfine Structure. The interaction between the spin of the nucleus and the angular momentum of the electron causes a further (hyperfine) splitting of atomic states. It is called hyperfine because it is also order like the fine structure corrections, but it is smaller by a factor of about because of the mass dependence of the spin magnetic moment for particles W e welcome you to participate in the International Conference on HYPERFINE Interactions and their Applications (HYPERFINE 2019), which will be held in Goa, India, February 10-15, 2019. This conference is a major international forum to present and discuss recent results and future directions in all aspects of hyperfine interactions including their. From the ab initio calculated parameters, we find that the magnetic hyperfine coupling is dominated by the interaction of the Tb nuclear spin with electronic orbital angular momentum. The asymmetric 4f-like electronic charge distribution leads to a strong nuclear quadrupole interaction with significant transverse terms for the molecule with low symmetry. The ab initio calculated electronic-nuclear spectrum including the magnetic hyperfine and quadrupole interactions is in excellent.

The interactions originate in the s = 1/2 quantum number for electrons. Hyperfine structure refers to that part of a spectrum caused by the splitting of energy levels, and spectral lines, due to an unpaired electron interacting with a nucleus having I 0. The electron and nucleus (nuclei) are on the same atom or within the same molecule * Further information about the hyperfine interaction can be obtained by examining ESR spectra at the ESLAC (figure 1(a))*. At a magnetic field near 510 G (oriented along the NV axis), hyperfine flip-flops and electronic spin polarization processes drive both 14 N and 13 C nuclear spins into the maximal spin projection along the excited state quantization axis [ 12 , 15 , 17 ] The hyperfine interactions consist of three components : (i) the coupling between the nuclear spin and the electronic orbital angular momentum; (ii) the dipolar interaction between the nuclear spin and the electronic spin; (iii) the contact interaction between the nuclear spin and the electron spin density at the nucleus position. The first, second, and third components are referred to as the.

* Hyperfine Interactions Journal Metrics 2015 Days from submission to first decision Number of days from submission of a manuscript to first decision*. 38 Days from acceptance to online first publication Number of days from acceptance at publisher to published online. Downloads Springer measures the usage on the SpringerLink platform according to the COUNTER (Counting Online Usage of NeTworked. hyperfine interaction strongly depended on the binding configuration of the atom. We could extract atom- and position-dependent information about the electronic ground state, the state mixing with neighboring atoms, and properties of the nuclear spin.Thus, the hyperfine spectrum becomes a powerful probe of the chemical environment of individual atoms and nanostructures. T he hyperfine. Gerstmann, U. Ab initio green's function calculation of hyperfine interactions for shallow defects in semiconductors. Phys. Status Solidi B 248, 1319-1336 (2011). CAS Article Google Scholar 35.

Magnetic Hyperfine Interaction for Many-Electron Atoms. Determination of the Nuclear Spin from Magnetic Hyperfine Structure. Nuclear Level Splitting by the Magnetic Hyperfine Interaction. ELECTRIC QUADRUPOLE HYPERFINE INTERACTION . General Expression. An Example of a Quadrupole Hyperfine Shift of Atomic Energy Level The splitting of the rotational levels of N{ 2 / + } in its X 2 Σ{ g / + } and B 2 Σ{ u / + } states due to hyperfine interactions (along with the hyperfine structure) in laser-induced fluorescence in the B-X transition is discussed. Recent results obtained in the laser photo-acoustic spectrum of ICl in the transition X 1 Σ + - A 3 Π 1 will be presented and the possibility of the use of this technique in studying the hyperfine structure will be discussed Hyperfine Interactions Journal Metrics 2016 Days from submission to first decision - 2016 Number of days from submission of the manuscript to first decision. 33 Days from acceptance to online publication - 2016 Number of days from acceptance at publisher to published online. Downloads - 2016 Springer measures the usage on the SpringerLink platform according to the COUNTER (Counting Online.

- Hyperfine interactions Untertitel journal devoted to research in the border regions of solid state, atomic and nuclear physics Zeitschriftenabkürzungen Hyperfine Interact. Hyperfine Interactions (Netherlands) DDC Physik Schlagworte Atomphysik | Festkörperphysik Publikationstyp Zeitschrift Verlag Dordrecht: Kluwer Version Verlagsversion Hat einen Teil. Bd. 10, Heft 1-4 | S. 979-982 : Nuclear.
- Authors: Bleaney, B Publication Date: Sat Jan 01 00:00:00 EST 1972 Research Org.: Oxford Univ. Sponsoring Org.: USDOE OSTI Identifier: 4613100 NSA Number
- Hyperfine Interactions (C) Proceedings of the International Conference on the Applications of the Mössbauer Effect, (ICAME 2001) September 2-7, 2001, Oxford, U.K. und Verleger Springer. Sparen Sie bis zu 80% durch die Auswahl der eTextbook-Option für ISBN: 9789401002813, 9401002819. Die Druckversion dieses Lehrbuchs hat ISBN: 9789401002813, 9401002819
- The Fermi contact interaction is the magnetic interaction between an electron and an atomic nucleus. Its major manifestation is in electron paramagnetic resonance and nuclear magnetic resonance spectroscopies, where it is responsible for the appearance of isotropic hyperfine coupling. This requires that the electron occupy an s-orbital

ISOTROPIC HYPERFINE EFFECTS IN EPR SPECTRA 3.1 INTRODUCTION In this chapter we continue to explore chemical species with a single unpaired electron (S ¼ 1 2). It was shown in Chapter 2 that the usual effect of the hyperﬁne interaction with a single proton (I ¼ 1 2) is to split each electron energy level into two, one pair for the M S ¼þ ** We theoretically study the interplay of spin-orbit and hyperfine interactions in dynamical nuclear polarization in two-electron semiconductor double quantum dots near the singlet (S) - triplet (T+) anticrossing**. The goal of the scheme under study is to extend the singlet (S) - triplet (T0) qubit decoherence time T∗2 by dynamically transferring the polarization from the electron spins to the. Hyperfine interactions can be used to provide a wealth of information about the sample such as the number and identity of atoms in a molecule or compound, as well as their distance from the unpaired electron. Table 1. Bio transition metal nuclear spins and EPR hyperfine patterns [3] The rules for determining which nuclei will interact are the same as for NMR. For isotopes which have even. Hyperfine couplings play a central role in electron paramagnetic resonance. They arise from the magnetic interaction of unpaired electrons with nuclear spins and provide one of the most important sources of information from EPR spectra. In this article, the hyperfine interaction and its implication for the shape of EPR spectra are discussed. Starting from a derivation of the general hyperfine. Winkler H, Eisberg R, Alp E, Rüffer R, Gerdau E, Lauer S et al. Pure Nuclear Reflexes and Combined Hyperfine Interactions in YIG. European Physical Journal B. Condensed Matter. 1983;331-341

The quadrupole hyperfine interaction of 111Cd in the cubic C-form sesquioxides of Sc, Y, Dy and Yb has been investigated over the temperature range 295-850 K with perturbed angular correlation. Hyperfine Interactions at Lanthanide Sites in Europium Doped Oxide Glasses G. Concas, F. Congiu, G. Spano, Adolfo Speghini, Karl Gatterer , Michael H. Bartl Institut für Physikalische und Theoretische Chemie (6350 ** View Hyperfine Interactions Research Papers on Academia**.edu for free HYPERFINE 2021 in Brasov will adopt a program similar to those of previous meetings in this series. The program will be built up around presentations from topics including, but not limited to: • Hyperfine interactions and nuclear quadrupole interactions • Radioactive ion beams, radioisotope probes and ion-solid interactions • Nuclear moments, nuclear polarization and nuclear models.

Hyperfine Interactions of Radioactive Nuclei [E-Book] / edited by Jens Christiansen. Hyperfine Interactions of Radioactive Nuclei [E-Book] / edited by Jens Christiansen. This volume deals with the interaction between moments of excited or radioactive nuclei and electromagnetic fields. The experimental techniques developed for the observation of this hyperfine interaction are governed by the. ** Hyperfine Interactions of Radioactive Nuclei (Topics in Current Physics (31), Band 31) | J**. Christiansen | ISBN: 9783540121107 | Kostenloser Versand für alle Bücher mit Versand und Verkauf duch Amazon Hyperfine Interactions, Oct, 2014, Vol.228(1-3), p.121(11) Zum Text Volltext / Suche Merken Merken. 3. Measuring the gravitational free-fall of antihydrogen von Storey, J. Hyperfine Interactions, 2014, Vol.228(1), pp.151-157.

This first one of two courses deals with the physics of hyperfine interactions.The supervised version is scheduled for 5 weeks, and takes you about 5 hours work per week. The follow-up course is hyperfinecourse B, on experimental methods based on hyperfine interactions.The supervised version is scheduled for 6 weeks, and takes you about 5 hours work per week ZDB Zeitschriftendatenbank. Direkt zum Inhalt. Zeitschriften Datenban Select all titles on this page . 1 . Boo

It is said that Fermi contact interaction is the main cause of hyperfine structure. The important point is that this Fermi contact value has NO physical meaning at all. In Fig.3, μ e and μ p are magnetic moments of electron and proton. The probability of ψ(0) means 1s electron can interact with nucleus only when it exists inside proton ! They just artificially adjust this primary Fermi. ** Synopsis This work covers the proceedings of the 14th International Conference on Hyperfine Interactions and 18th International Symposium on Nuclear Quadrupole Interactions, HFI/NQI 2004, held in Iguazu Falls, Brazil, 5-10 August, 2007**. This volume focuses on the most recent studies on all. Hyperfine Interactions Laboratory, São Paulo. Gefällt 18 Mal. Hyperfine Interactions Laboratory is located at IPEN inside the campus of São Paulo University (USP Compare Price and Edition Great Selection and Amazing Price

Hyperfine Interactions von Springer Verlag, D-Heidelberg günstig abonnieren. Hyperfine Interactions 0304-3834 Abonnement bei SIZ Zeitschrifte The hyperfine interaction of the charge carriers with the host lattice nuclei is a short range interaction, 31,46 so it can be studied quantitatively using the tight binding approximation. This is done in this section. The microscopic Hamiltonian of the hyperfine interaction with the nuclei has the form (9) Here μ B is the Bohr magneton, μ (n) I, r n is the electron distance to the n th. Hyperfine interactions : journal devoted to research in the border regions of solid state, atomic and nuclear physics Dordrecht [u.a.] : Kluwer 1.1975/76-volume 236, nos. 1/3 (2015) Diesen Titel auf die Merkliste setzen. Optionen . Exportieren MARC21xml JSON-LD Turtle RDF/XML. Bestellen . Mehr Titelinformationen. ZDB-ID 194471-X Titel Hyperfine interactions : journal devoted to research in the. HYPERFINE INTERACTIONS. Full Record; Other Related Research; Publication Date: Thu Oct 31 00:00:00 EST 1968 Research Org.: California Univ., Berkeley. Lawrence Radiation Lab. OSTI Identifier: 4516196 Report Number(s): UCRL-17989 NSA Number: NSA-22-037717 Resource Type: Technical Report Resource Relation: Other Information: UNCL. Orig. Receipt Date: 31-DEC-68 Country of Publication: United. Hyperfine Interactions Journal Metrics 2016 Days from submission to first decision - 2016 Number of days from submission of the manuscript to first decision. 33 Days from acceptance to online publication - 2016 Number of days from acceptance at publisher to published online. Downloads - 201

We theoretically study the interplay of spin-orbit and hyperfine interactions in dynamical nuclear polarization in two-electron semiconductor double quantum dots near the singlet (S) - triplet (T+) anticrossing. The goal of the scheme under study is to extend the singlet (S) - triplet (T0) qubit decoherence time T∗2 by dynamically transferring the polarization from the electron spins to the nuclear spins. This polarization transfer is achieved by cycling the electron spins over the S−T+. Hyperfine Splitting. We can think of the nucleus as a single particle with spin . like the electron but the problem is complicated by the strong interactions which make it hard to define a quark's mass.) We can compute (to some accuracy) the gyromagnetic ratio of nuclei from that of protons and neutrons as we can compute the proton's gyromagnetic ratio from its quark constituents. In any. ICAME is the major International Conference on research in which Mössbauer Spectroscopy plays a key role. Mainstream topics cover Condensed Matter Science, - magnetism, nanophase materials, chemical structure and bonding, industrial applications including catalysis and corrosion, biological and medical studies. Non-mainstream investigations include relating diamonds to the state of the earth. Hyperfine Interactions . By Maria do Carmo Rangel Santos Varela, Milton Francisco de Jesus Filho and Fernando Galembeck. Abstract. Texto completo. Acesso restrito. p. 161-167M6ssbauer spectroscopy was used to follow the aging of ferrilaydrite with different amounts of acetate, to achieve more crystalline products. M6ssbauer spectra of fresh samples did not show any magnetic components. After.

Fierce Medtech names Hyperfine as one of its Fierce 15 companies of 2020. GUILFORD, Conn., March 08, 2021 (GLOBE NEWSWIRE) — Hyperfine Research has been named by Fierce Medtech as one of 2020's Fierce 15, designating it as one of the most innovative and creative priva.. Hyperfine Interactions preprints This is a site containing all the preprints which are available under open acces from the Hyperfine Interaction conferences in 2010, 2012, 2014 and 2016. You will find all the preprints from the 2010 conference, which was held at CERN, in the HFI2010 link to the left Hyperfine interactions and internal rotation in methanol. Lankhaar B(1), Groenenboom GC(1), van der Avoird A(1). Author information: (1)Theoretical Chemistry, Institute for Molecules and Materials, Radboud University, Heyendaalseweg 135, 6525 AJ Nijmegen, The Netherlands. Erratum in J Chem Phys. 2018 Apr 14;148(14):149901. We present a rigorous derivation of the nuclear spin-rotation and spin. Hyperfine structure of electric origin. Exactly the same reasoning as for the magnetic case is possible for electric interactions, but is less intuitively clear. If we take the second point of view, an electric property of the nucleus that goes further than the electric point charge, is the electric quadrupole moment (it can be thought about as a cigar-shaped deformation of the nucleus). One can prove that this interacts with the gradient of the electric field of the electrons, and results.

Hyperfine Interactions Journal Metrics 2017. Journal Metrics Impact AJRs2017_JournalMetrics2017 CiteScore 2016 CiteScore 2016 counts the citations received in 2016 to documents published in 2013, 2014 or 2015, and divides this by the number of documents published in 2013, 2014 and 2015. 0.65 SJR - 2016 SCImago Journal Rank (SJR) is a measure of scientific influence of scholarly journals that. We investigate the hyperfine and nuclear quadrupole interactions for 161Dy and 163Dy nuclei in anionic DyPc2 (Pc = phthalocyanine) single-molecule magnets, using multiconfigurational ab initio methods (beyond density-functional theory) including spin-orbit interaction. The two isotopes of Dy are chosen because the others have zero nuclear spin. Both isotopes have the nuclear spin I = 5/2.

Hyperfine Interactions. View all articles. Journal Information. ISSN / EISSN : 0304-3834 / 1572-9540 Current Publisher: Springer Science and Business Media LLC (10.1007) Former Publisher: Springer Science and Business Media LLC (10.1023) Total articles ≅ 10,424. Current Coverage. SCOPUS. LOCKSS. Archived in . SHERPA/ROMEO. Number of articles; Open access articles; Average authors per article. Hyperfine interactions in excited nuclei International Conference on Hy Not in Library. Nuclear methods in semiconductor physics Symposium F on Nuclear Methods Not in Library. Not in Library. Een studie over beta-asymmetrie in ingeplante systemen R. Geerts Not in Library. Quadrupole mass-filter sensitivities of Hb2s, HD, Db2s, and Tb2s, and Not in Library Genshikaku Purōbu Seisei. So the hyperfine interaction only partially removes the degeneracy; the three \( f=1 \) states remain degenerate. Let's combine everything that we've found so far and sketch a complete diagram of the energy eigenvalues for the first two hydrogen orbital levels. (I will include the \( n=2 \) hyperfine corrections in my sketch, although we won't work them out explicitly here.) This diagram is. Hyperfine interactions of Er 3 + ions in Y 2 SiO 5: Electron paramagnetic resonance in a tunable microwave cavity Yu-Hui Chen, Xavier Fernandez-Gonzalvo, Sebastian P. Horvath, Jelena V. Rakonjac, and Jevon J. Longdell Phys. Rev. B 97, 024419 - Published 19 January 201

Boston University Libraries. Services . Navigate; Linked Data; Dashboard; Tools / Extras; Stats; Share . Social. Mai If the address matches an existing account you will receive an email with instructions to reset your passwor View 0 peer reviews of Substitution effect of Cr3+ on hyperfine interactions, magnetic and optical properties of Sr-hexaferrites on Publons Download Web of Science™ My Research Assistant : Bring the power of the Web of Science to your mobile device, wherever inspiration strikes

221A Lecture Notes Fine and Hyperﬁne Structures of the Hydrogen Atom 1 Introduction With the usual Hamiltonian for the hydrogen-like atom (in the Gaussia HYPERFINE INTERACT 润色咨询. hyperfine interactions. 出版年份：暂无数据 年文章数：81 投稿命中率：暂无数据. 出版周期：暂无数据 自引率：暂无数据 审稿周期：暂无数

We report a detailed study of the ground-state helical magnetic structure in monophosphide FeP by means of $^{31}\mathrm{P}$ NMR spectroscopy. We show that the zero-field NMR spectrum of the polycrystalline sample provides strong evidence of an anisotropic distribution of local magnetic fields at the P site with substantially lower anharmonicity than that found at the Fe site by M\ossbauer. We theoretically study the interplay of spin-orbit and hyperfine interactions in dynamical nuclear polarization in two-electron semiconductor double quantum dots near the singlet-triplet (S−T+) anticrossing. The goal of the scheme under study is to extend the singlet-triplet (S−T0) qubit decoherence time T∗2 by dynamically transferring the polarization from the electron spins to the. @MISC{Freeman67hyperfineinteractions, author = {Jennifer Freeman and Ut Telecampus}, title = {Hyperfine Interactions}, year = {1967}} Share. OpenURL . Abstract. Students in online courses can often feel isolated and overwhelmed by the lack of face-to-face communication with their instructor and each other. Without a feeling of community, people are on their own [and] likely to be anxious. **Hyperfine** **interactions** Untertitel journal devoted to research in the border regions of solid state, atomic and nuclear physics Zeitschriftenabkürzungen **Hyperfine** Interact. **Hyperfine** **Interactions** (Netherlands) DDC Physik Schlagworte Atomphysik | Festkörperphysik Publikationstyp Zeitschrift Verlag Dordrecht: Kluwer Version Verlagsversion Hat einen Teil. Bd. 10, Heft 1-4 | S. 979-982 : Nuclear. Total number of Hyperfine lines: Hyperfine (HF) and Superhyperfine (SHF) are both due to coupling between electron/paramagnetic spin and nuclear spins: Hyperfine refers to interaction of a metal nucleus with its own unpaired electron spin density. Superhyperfine refers to interaction of unpaired electron spin density with.

Hyperfine Interaction of 140Ce(←140La) in CaB6 Tanigaki, M.; Ohkubo, Y.; Taniguchi, A.; Kawase, Y.; Goto, J.; Sasanuma, T. 2004-10-13 00:00:00 A 140La(I π=3−, T 1/2=40.3 h)-doped layer has been produced in CaB6 by means of radioactive isotope (RI) beam technique: 140Cs(I π=1−, T 1/2=63.7 s) was implanted into CaB6 and the radioactive equilibrium of 140Ba-140La was achieved. The concentration of La in CaB6 was La/Ca ∼0.001. Obtained TDPAC spectra of the 2083 keV level of 140Ce (I. 2 The redox pair (μ4-TCNE)Fe(CO)2(C5H5)44+/3+: Surprisingly small metal-ligand interaction and the first resolved EPR hyperfine structure (13C, 14N, 57Fe) of a tetranuclear complex with TCNE- A. Maity , B. Schwederski , und W. Kaim Hyperfine Interactions, 7/1990, Vol.58(1-4), pp.2519-2524. Zum Text Volltext / Suche Merken Merken. 3. Problems of electron detection in Depth-Selective Conversion Electron Mössbauer Spectroscopy von. Example sentences with hyperfine interaction, translation memory. add example. en In Si and Ge, electrons' spins can have long relaxation and coherence times due to small hyperfine interaction. cordis. fr Le silicium et le germanium sont le siège de petites interactions hyperfines, donnant au spin des électrons une longue durée de relaxation et de cohérence. en These latter three. Hyperfine Interactions ONLINE von Springer Verlag, D-Heidelberg günstig abonnieren. Hyperfine Interactions ONLINE 0304-3843 Abonnement bei SIZ Zeitschrifte Title: Influence of Hyperfine Interaction on the Entanglement of Photons Generated by Biexciton Recombination. Authors: Erik Welander, Julia Hildmann, Guido Burkard (Submitted on 23 Sep 2014 , last revised 12 Oct 2015 (this version, v2)) Abstract: The quantum state of the emitted light from the cascade recombination of a biexciton in a quantum dot is theoretically investigated including.