共查询到20条相似文献,搜索用时 15 毫秒
1.
原子间的自旋相互作用力对原子级别磁性纳米构造体的表面磁性质的理解是极为重要的. 磁交换力显微镜是测量表面自旋作用力的重要手段, 但它的缺点一是需要加外部强磁场, 二是不能分离表面形貌和自旋信息, 这就导致材料表面受外部磁场的影响, 而且表面形貌和自旋信息之间相互影响, 使自旋间的相互作用力的检测和成像研究受到限制.为了解决上述问题, 利用原子力显微镜, 并采用微波照射的方法, 根据铁磁共振原理, 分别独立提取磁性材料表面形貌和自旋信息, 称之为铁磁共振磁交换力显微镜, 理论和实验结果表明此方法可以有效地分离两种信息. 铁磁共振磁交换力显微镜可以促进对原子级磁性材料机能的理解以及磁性相关科学领域的进步, 特别是对自旋电子元件的发展有很大的促进作用, 是新世纪高度信息化社会不可缺少的测量技术.
关键词:
原子力显微镜
磁交换力显微镜
自旋
铁磁共振 相似文献
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This paper reviews the theory and practice of Lorentz electron microscopy in the investigations of magnetic domain structure. The transmission electron microscope, the necessary operational procedures and imaging theory required for Lorentz microscopy are described. Magnetization devices and other facilities that have been developed over the last two years to study domain magnetization in situ in the electron microscope are discussed. Results so far obtained on such materials as thin single crystals and polycrystals of ferromagnetic metals, magnetic oxides, evaporated and electrodeposited single crystal and polycrystal films, and whisker and single domain particles are reviewed. The methods available for preparing specimens in a suitable form for transmission electron microscopy are described. 相似文献
4.
Quantum theory of the magneto-optical effect and magnetization of Nd-substituted yttrium iron garnet
F. Zhang Y. Xu J.H. Yang M. Guillot 《The European Physical Journal B - Condensed Matter and Complex Systems》2001,20(2):165-175
The magneto-optical and magnetic properties of Nd 3+ ions in Y 3Fe 5O 12 garnet are analyzed by using quantum theory. In the spontaneous state, the magneto-optical effects originate mainly from
the intra-ionic electric dipole transitions between the 4 f
3 and 4 f
25d states split by the spin-orbit, crystal field, and superexchange interactions. For the excited configuration, the coupling
scheme of Yanase is extended to the Nd 3+ ion. The magneto-optical resonance frequencies are mainly determined by the splitting of the 5d states induced by the crystal field. The theoretical results of both Nd magnetization and Faraday rotation are in good agreement
with experiments. The observed Faraday rotation is proved to be of the paramagnetic type. Although the value of the magneto-optical
resonance frequency derived from a macroscopic analysis is approximately confirmed by our theoretical study, a new assignment
about the transitions associated with this resonance is unambiguously determined. The spin-orbit coupling of the ground configuration
has a great influence on both the Faraday rotation and magnetization, but, unlike the theoretical results obtained in some
metals and alloys, the relation between the Faraday rotation and the spin-orbit coupling strength is more complex than a linear
one. The magnitude of the magneto-optical coefficient increases as the spin-orbit interaction strength of the ground configuration
decreases when the strength is not very weak. Finally, the temperature dependence of the magneto-optical coefficient and the
effect of the mixing of different ground-term multiplets induced by the crystal field are analyzed.
Received 8 November 2000 相似文献
5.
M.F. El-Sayed 《The European Physical Journal D - Atomic, Molecular, Optical and Plasma Physics》2003,23(3):391-403
A linear analysis of the combined effect of viscosity, finite ion Larmor radius and suspended particles on Kelvin-Helmholtz
instability of two superposed incompressible fluids in the presence of a uniform magnetic field is carried out. The magnetic
field is assumed to be transverse to the direction of streaming. A general dispersion relation for such a configuration has
been obtained using appropriate boundary conditions. The stability analysis is discussed analytically, and the obtained results
are numerically confirmed. Some special cases are recovered and corrected. The limiting cases of absence of suspended particles
(or fluid velocities) and finite Larmor radius, absence of suspended particles are discussed in detail. In both cases, all
other physical parameters are found to have stabilizing as well as destabilizing effects on the considered system. In the
former case, the kinematic viscosity is found to has a stabilizing effect, while in the later case, the finite Larmor radius
is found to has a stabilizing influence for a vortex sheet. It is shown also that both finite Larmor radius and kinematic
viscosity stabilizations for interchange perturbations are similar to the stabilization effect due to a magnetic field for
non-interchange perturbations.
Received 13 January 2003 Published online 24 April 2003
RID="a"
ID="a"Also at: Department of Mathematics, Faculty of Education, Ain Shams University, Roxy, Cairo, Egypt. e-mail: m.elsayed@uaeu.ac.ae 相似文献
6.
J. C. Andrews S. Brennan C. Patty K. Luening P. Pianetta E. Almeida 《Synchrotron Radiation News》2013,26(3):17-26
The old saying that seeing is believing has particular resonance for studying biological cells and tissues. Since 1677, when Anton van Leeuwenhoek used a simple light microscope to discover single cell organisms, scientists have relied on structural information obtained from microscopes with improving capabilities to advance the understanding of how biological systems work. Optical and electron microscopes are essential for many of these important discoveries and have been widely employed in biomedical research laboratories. However, various limitations exist in these microscopy techniques. We describe below how the new X-ray imaging facility at the Stanford Synchrotron Radiation Laboratory (SSRL), based on an Xradia nano-XCT full-field transmission X-ray microscope (TXM), can provide complementary and unique capabilities to the current microscopy methods for studying complex biological systems. 相似文献
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A variety of methods for the investigation and 3D representation of the inner structure of materials has been developed. In this paper, techniques based on slice and view using scanning microscopy for imaging are presented and compared. Three different methods of serial sectioning combined with either scanning electron or scanning ion microscopy or atomic force microscopy (AFM) were placed under scrutiny: serial block-face scanning electron microscopy, which facilitates an ultramicrotome built into the chamber of a variable pressure scanning electron microscope; three-dimensional (3D) AFM, which combines an (cryo-) ultramicrotome with an atomic force microscope, and 3D FIB, which delivers results by slicing with a focused ion beam. These three methods complement one another in many respects, e.g., in the type of materials that can be investigated, the resolution that can be obtained and the information that can be extracted from 3D reconstructions. A detailed review is given about preparation, the slice and view process itself, and the limitations of the methods and possible artifacts. Applications for each technique are also provided. 相似文献
9.
The ill-posed linear inverse problems, characterised by Fredholm integral equations of the first kind, are encountered in
many areas of science and technology. This type of problems present some loss of information under the inversion process.
The loss of information often makes the inversion process very difficult. Magnetic force microscopy (MFM) is a technique where
problems related to loss of information occur. Work is presented here to understand what can be measured by the magnetic force
microscope. A simple model is constructed, where the magnetic tip is approximated by a point dipole. Given the force F() acting on the dipole tip, we attempt to determine the magnetization distributlon in a thin ferromagnetic film, M(). This calculation should be interesting due to the rapidiy growing interest in magnetic thin films and magnetic multilayers.
Received 3 December 2001 and Received in final form 11 March 2002 相似文献
10.
This paper aims at investigating the interaction of two flexible permanent magnet beams facing each other. The governing equations of motion are obtained based on the Euler–Bernoulli beam model along with Hamilton's principle. Assuming that the beams' tips are far enough, each magnet beam is considered as a series of dipole segments and the external force and moment distributions over each beam due to the magnetic field of the other one is calculated in the deformed configuration. The transverse deflections of the beams are written as series expansions of the mode shapes of an unloaded cantilever beam and the Galerkin method is applied to determine the stability and resonance frequencies. Using the obtained model, the stability regions of the beams for both cases of opposite poles and same poles facing each other are obtained. Also the effect of magnet's strength and flexibility of the beams on the stability boundaries are illustrated. 相似文献
11.
Y. Manzhur W.-D. Zeitz M. J. Prandolini W. D. Brewer P. Imielski J. Schubert K. Johnston 《The European Physical Journal B - Condensed Matter and Complex Systems》2007,59(3):277-283
Using refined preparation techniques, cadmium guest atoms have been
positioned at different sites on the surfaces of nickel crystals. The
magnetic hyperfine fields and the electric field gradients at the Cd nuclei
were measured by time-dependent perturbed angular correlation (TDPAC)
spectroscopy of the emitted gamma radiations. By measuring the combined
interactions, electric field gradients and magnetic hyperfine fields can be
unambiguously attributed to each surface site. The signs of the magnetic
hyperfine fields are determined by applying an external magnetic field and
choosing the appropriate γ-ray detector configuration. The measured
fields correlate with the number of neighbouring host atoms. Band structure
calculations confirm this finding and predict magnetic fields for various
sp elements from the band structure of the s-like conduction electrons. The
quadrupolar interactions are manifestations of the balance in the occupation
of the guest p-sublevels. These results provide new information on the
structure and formation of electronic configurations of sp elements in different local environments and will contribute to understanding electronic effects on surfaces. 相似文献
12.
The effect of intercentre interaction (via vibrations and electron-electron coupling) on the magnetic and magnetic resonance characteristics of a pair of Jahn-Teller centres is investigated. In the limiting case of strong vibronic coupling when the splitting of degenerate electronic terms is sufficiently large the exchange Hamiltonian for the pair has the Heisenberg form. The energy spectrum of spin states of the pair system is obtained and the temperature dependence of the effective magnetic moment is investigated. It is shown that under some conditions this temperature dependence has an anomalous nonmonotonic character. The g factors of the two-centre Jahn-Teller system are obtained and the changes of the EPR spectrum with the exchange and vibrational coupling constants is analysed. With inclusion of only the exchange interaction, the pair spectrum possesses an additional isotropic resonance placed in the middle of the known broadened EPR spectrum of single centres with the Jahn-Teller effect for an orbital E term. The vibrational interaction between the centres results in a radical transformation of the spectrum, which in this case contains only an isotropic resonance line. 相似文献
13.
A bottle screening method to detect smuggling drugs was developed based on a series of rapid and automated magnetic resonance measurements. Liquid alteration is detected by evaluating chemical and physical properties of the liquid, scanning the bottle with a compact, non-contact magnetic resonance probe. Chemical and molecular diffusion changes are detected by means of the magnetic resonance relaxation time. The inspection device automatically detects the presence of concealed powders dissolved in liquids in a second timescale. The non-ionizing, non-contact method effectively screens bottles, regardless of their shape, size, and color. The proposed system configuration does not require a large magnet generating uniform magnetic fields; rather it inspects the liquid using a compact probe positioned on the wall of the bottle. For a variety of samples tested, the screening does not require detailed information on the expected content of the bottle. 相似文献
14.
F. J. Timmermans B. Liszka A. T. M. Lenferink H. A. G. M. van Wolferen C. Otto 《Journal of Raman spectroscopy : JRS》2016,47(8):956-962
We present an integrated confocal Raman microscope in a focused ion beam scanning electron microscope (FIB SEM). The integrated system enables correlative Raman and electron microscopic analysis combined with focused ion beam sample modification on the same sample location. This provides new opportunities, for example the combination of nanometer resolution with Raman advances the analysis of sub‐diffraction‐sized particles. Further direct Raman analysis of FIB engineered samples enables in situ investigation of sample changes. The Raman microscope is an add‐on module to the electron microscope. The optical objective is brought into the sample chamber, and the laser source, and spectrometer are placed in a module attached onto and outside the chamber. We demonstrate the integrated Raman FIB SEM function with several experiments. First, correlative Raman and electron microscopy is used for the investigation of (sub‐)micrometer‐sized crystals. Different crystals are identified with Raman, and in combination with SEM the spectral information is combined with structurally visible polymorphs and particle sizes. Analysis of sample changes made with the ion beam is performed on (1) structures milled in a silicon substrate and (2) after milling with the FIB on an organic polymer. Experiments demonstrate the new capabilities of an integrated correlative Raman–FIB–SEM. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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An investigation is reported of coherent resonance in the degenerate two-level system of the (Fg = 2 --> Fe = 1) transition of the 87Rb D1 line by means of a Hanle effect configuration. In a coherent population trapping experiment, a very narrow (approximately 1-kHz) resonance superimposed upon a broader resonance (approximately 100 kHz) was observed. The dependence of the width and the amplitude of the coherent resonance on the laser power density, on additional constant magnetic fields, on the laser frequency position along the fluorescence profile, and on Rb cells with different dimensions was investigated. 相似文献
17.
介绍并表征了一套单法兰集成的低能电子显微镜. 这套显微镜中采用了10o偏转角的磁分束器,从而有利于将其集成到一个10 in的法兰上. 电子光学系统中的一些修正单元被简化,以使其结构简单,容易操作. 样品被置于地电位,方便各静电透镜浮在高电压上. 通过几个实验展示了这台显微镜在典型的低能电子成像、低能电子衍射和光电子成像模式下的性能. 低能电子成像的空间分辨率为51 nm. 利用飞秒激光做光源,相应的非线性光电子发射过程使得这台设备非常适合进行光学近场现象的观察,并获得110 nm的光电子成像空间分辨率. 相似文献
18.
Magnetic field cycling in nuclear magnetic resonance (NMR) experiments has been used since the early days of NMR. Originally such time-dependent magnetic field experiments were motivated to study cross relaxation, spin system thermodynamics and indirect detection of quadrupolar resonance. The first apparatus used mechanical or pneumatic systems to shoot the sample between two magnets, the typical “flying time” being a few hundreds of milliseconds. As a natural evolution of the experimental technique and the need to extend its application to samples with higher relaxation rates, faster magnetic field switching devices were developed during the last years. Special electric networks combined with sophisticated air core magnets allowed one to switch magnetic fields between zero and fields of the order of 0.5 T in a few milliseconds. Today we refer to this new generation of instruments as “fast-field-cycling” devices. The technique has been successfully used during the last years to obtain information on the molecular dynamics and order in different materials, ranging from organic solids, metals, polymers, liquid crystals, porous media to biological systems. At present it is also turning to be an important tool for the design of contrast agents for magnetic resonance imaging. Fast field cycling was mainly oriented toT 1 relaxometry as a unique technique offering a dynamic window of several decades, ranging from few kilohertz to several megahertz. However, there exist less conventional applications of the technique that can also provide relevant information concerning molecular dynamics, structure and molecular order. In this article we will briefly deal with basic aspects of the technique, its evolution, present-day relevant applications and the last improvements concerning specialized instrumentation. 相似文献
19.
A design of novel type superconducting magnet for super—high field functional magnetic resonance imaging by using the harmonic analysis method of magnetic vector potentials
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The approach of expanding the magnetic scalar potential in a series of Legendre polynomials is suitable for designing a conventional superconducting magnetic resonance imaging magnet of distributed solenoidal configuration. Whereas the approach of expanding the magnetic vector potential in associated Legendre harmonics is suitable for designing a single-solenoid magnet that has multiple tiers, in which each tier may have multiple layers with different winding lengths. A set of three equations to suppress some of the lowest higher-order harmonics is found. As an example, a 4T single-solenoid magnetic resonance imaging magnet with 4×6 layers of superconducting wires is designed. The degree of homogeneity in the 0.5m diameter sphere volume is better than 5.8 ppm. The same degree of homogeneity is retained after optimal integralization of turns in each correction layer. The ratio Bm/B0 in the single-solenoid magnet is 30% lower than that in the conventional six-solenoid magnet. This tolerates higher rated superconducting current in the coil. The Lorentz force of the coil in the single-solenoid system is also much lower than in the six-solenoid system. This novel type of magnet possesses significant advantage over conventional magnets, especially when used as a super-high field functional magnetic resonance imaging magnet. 相似文献
20.
双光子激发荧光(two-photon excited fluorescence, TPEF)显微是一种非线性光学显微技术, 具有高的时间分辨率和空间分辨率、高的信噪比和固有的三维层析分辨能力等优点. 传统的TPEF显微一般采用波长可调谐的超短脉冲激光器作为光源. 在实际应用中, 利用TPEF显微技术研究含有多种荧光团或未知成分的待测样品, 往往需要多次改变激发光的波长以获得对各种荧光团的最佳激发. 为了同时获取不同荧光团的荧光信号, 利用超连续谱激光光源实现了多色TPEF显微成像, 实验中无需调节波长, 能够同时获得具有两种不同发射波长的荧光标记的铃兰根茎切片样品的TPEF图像. 实验结果表明, 与传统的TPEF显微相比, 该方法能够同时获取含有多种荧光团的待测样品的高对比度TPEF图像, 具有系统结构简单、操作简便、信息量大等优点, 在生物医学和材料科学等领域具有广阔的应用前景. 相似文献