「Spectroscopy」の共起表現一覧(1語右で並び替え)
該当件数 : 318件
| At the end of the war, he worked on Raman | spectroscopy, a field in which he was regarded as one of |
| ped pure absorption phase multi-dimensional | spectroscopy, a technique now widely used in protein str |
| 0 nmi) orbit for 'experiments in stellar UV | spectroscopy', a 556-1,296 km (300-700 nmi) orbit for 'e |
| fundamental difference in how IR and Raman | spectroscopy access the vibrational transitions. |
| lso developed the areas of multiple-quantum | spectroscopy, adiabatic sech/tanh inversion pulses, zero |
| Fluorescence | spectroscopy aka fluorometry or spectrofluorometry, is a |
| Saturated | spectroscopy allows the doppler broadened peak to be res |
| frequencies of light emitted in fluorescent | spectroscopy, along with their relative intensities, the |
| l telescopes are usually not well-suited to | spectroscopy, although some useful spectroscopic work ca |
| n can often be detected and measured by NMR | spectroscopy, among other methods. |
| ouis and Kumar used energy dispersive X-ray | spectroscopy analysis of the red solid and showed that t |
| 1990 by the German Working Group of Applied | Spectroscopy, and is endowed with €2500 by PerkinElmer, |
| are used in different applications such as | spectroscopy and sensing, laser power delivery and fiber |
| mplexes, mechanisms of inorganic reactions, | spectroscopy and magneto-chemistry of inorganic compound |
| t Propulsion Laboratory, who specializes in | spectroscopy and photometry of minor planets. |
| efore, of use in nuclear magnetic resonance | spectroscopy; and spectrometers specially adapted to det |
| tum and multi-particle transitions in radio | spectroscopy and quantum radiophysics," was published in |
| erhard published numerous investigations on | spectroscopy and on photographic photogrametry. |
| This was the first use of X-ray | spectroscopy and also one more step towards the creation |
| Some techniques, such as Raman | spectroscopy and Energy Dispersive X-Ray Diffraction (ED |
| ch Miller is mainly remembered today are in | spectroscopy and astrochemistry, new fields in his time. |
| mpounds including that for infrared and NMR | spectroscopy and mass spectrometry. |
| erahertz radiation in time-domain terahertz | spectroscopy and terahertz imaging. |
| The national centre for electron | spectroscopy and surface analysis (NCESS), which has a h |
| scattering spectrometer for high resolution | spectroscopy, and magnetism and liquid reflectometers fo |
| alline structure was determined by both NMR | spectroscopy and X-ray crystallography in 1963. |
| is the director of Institute for Ultrafast | Spectroscopy and Lasers. |
| bration in the application of near infrared | spectroscopy and development of predictive models for us |
| hemical shift in nuclear magnetic resonance | spectroscopy and represents difference of the frequency |
| Spectral imaging is a branch of | spectroscopy and of photography in which a complete spec |
| d for CCD direct imaging, medium-dispersion | spectroscopy and visual observing. |
| cientific and technical use is called gamma | spectroscopy, and gamma-ray spectrometers are the instru |
| ly obtained by X-ray crystallography or NMR | spectroscopy and submitted by biologists and biochemists |
| of molecules through paramagnetic resonance | spectroscopy and for the introduction and biological app |
| ly 3, 2008 by Sato et al., who used Doppler | Spectroscopy and found the wobbling of the star caused b |
| igated the structure of the Milky Way, star | spectroscopy and gas nebula, and searched intensively fo |
| ion is frequently used in atomic absorption | spectroscopy and gas chromatography. |
| He specialized in solar | spectroscopy and mapped the distribution of magnetic fie |
| wavelength spectrograph, FOBOS, for general | spectroscopy and precision radial velocity measurement. |
| value throughout nuclear magnetic resonance | spectroscopy and is particularly valuable for determinin |
| py, cyclic spectrovoltammetry, photocurrent | spectroscopy, and electrochemical quartz crystal microba |
| He combined NMR | spectroscopy and modeling to demonstrate for the first t |
| y, flow cytometry, fluorescence correlation | spectroscopy and ELISA. |
| In Fourier Transform NMR | spectroscopy and imaging, a pulse sequence describes a s |
| phenomenon is referred to as inverse Raman | spectroscopy, and a record of the continuum is referred |
| as published papers on astrophysical plasma | spectroscopy and structure and energy balance in cool st |
| oder systems, dental CAD/CAM systems, Raman | spectroscopy and medical devices for functional neurosur |
| ze in Physics in 1917 for his work in X-ray | spectroscopy and related areas in the study of X-rays (R |
| lexes, the Department of Photochemistry and | Spectroscopy and the Department of Quantum Theory of Sol |
| adio astronomy, Pulsar physics, Space radio | spectroscopy, and Pulsar astrometry. |
| His thesis research was on atomic | spectroscopy and the Stark effect, an area successfully |
| a rays and beta particles, please see gamma | spectroscopy and liquid scintillation counting respectiv |
| etic resonance imaging, spatially selective | spectroscopy and studies of diffusion via NMR. |
| arded for his work on laser-based precision | spectroscopy, and the optical frequency comb technique. |
| ent of modern instruments: visible imagery, | spectroscopy and polarimetry are routinely conducted. |
| izing surface plasmon resonance, dielectric | spectroscopy and molecular neurobiology to successfully |
| s to the integration of physical chemistry, | spectroscopy and organic chemistry for the understanding |
| He worked in astronomical photometry and | spectroscopy and is well known for creating instruments |
| Currently NIR | spectroscopy applications dominate the PAT projects. |
| Timashev developed a flicker-noise | spectroscopy approach for extracting information from th |
| Coherent or resonance | spectroscopy are techniques where the radiative energy c |
| nic generation and sum frequency generation | spectroscopy are best known and also widely used by scie |
| other techniques such as circular dichroism | spectroscopy are often used as faster alternatives. |
| in a centrosymmetric molecule, IR and Raman | spectroscopy are mutually exclusive. |
| hniques, like X-ray crystallography and NMR | spectroscopy, are widely used in chemistry and biochemis |
| Gas chromatography and mid-infrared | spectroscopy are other methods in use. |
| NMR and IR | spectroscopy) are far superior in determining the identi |
| by an ac pulse, and monitored by reflection | spectroscopy as well as light scattering. |
| urplish coordination complex is used in NMR | spectroscopy as a relaxation agent because of its solubi |
| ted DCM is not a common solvent used in NMR | spectroscopy as it is reasonably expensive. |
| in conjunction with electron spin resonance | spectroscopy, as a reagent in organic synthesis, and as |
| Aromatic ring currents are relevant to NMR | spectroscopy, as they dramatically influence the chemica |
| y X-ray diffraction and X-ray photoelectron | spectroscopy as the mixed-valence phase PuIV3−xPuVIxO6+x |
| The silylene can be observed with UV | spectroscopy at 520 nm and is short-lived with a chemica |
| D as a brown dwarf was confirmed by Doppler | spectroscopy at the Cerro Tololo Interamerican Observato |
| This compound was detected by infrared | spectroscopy at 30 K but has not been isolated as a stab |
| c from Oxford and was appointed lecturer in | spectroscopy at King's College London. |
| an be differentiated from NAA in vivo by MR | spectroscopy at 3 Tesla. |
| German physicist who made contributions to | spectroscopy, atomic physics, the structure of matter, a |
| Spectroscopy, based on the interaction of the analyte wi | |
| CT) monochromator) or FT (Fourier transform | spectroscopy based), and CCD detectors. |
| In general Electron Energy Loss | Spectroscopy bases on the energy losses of electrons whe |
| used as thermal light sources for infrared | spectroscopy because their spectral behaviour correspond |
| He was an expert in | spectroscopy, being one of the first to determine that t |
| ation include X-ray crystallography and NMR | spectroscopy, both of which can produce information at a |
| It was occasionally used in the field of | spectroscopy, but its use has been superseded by teraher |
| advanced physics courses, including one in | spectroscopy by Janet T. Howell. |
| Infrared (IR) | spectroscopy by ATR is applicable to the same chemical o |
| Any form of | spectroscopy can be used in this way so long as the anal |
| Spectroscopy can be used to measure the absorption of li | |
| n, she discovered that electron energy loss | spectroscopy can be used to detect species absorbed in t |
| Gamma | spectroscopy can narrow down the potential nuclear explo |
| Fourier transform infrared (FTIR) | spectroscopy can be used to experimentally study rotatio |
| NMR | spectroscopy can also be used to check the level of impu |
| MIR | spectroscopy can distinguish subtle changes in chemistry |
| Dark-current | spectroscopy can be used to determine the defects presen |
| It is ranked number 7 out of 39 in the | Spectroscopy category. |
| His fields of research included | spectroscopy, charge transfer complexes, solution theory |
| nce, double resonance, selective excitation | spectroscopy, coherent processes in excited states, e.g. |
| Polarization | spectroscopy comprises a set of spectroscopic techniques |
| was done using low-intermediate-resolution | spectroscopy confirmed the presence of a substellar obje |
| The term is commonly used in absorption | spectroscopy, corresponding to a wavelength of maximum a |
| nted areas, such as liquid fuel technology, | spectroscopy, crystallography, system engineering, biote |
| Other | spectroscopy databanks can be used. |
| th purity sufficient to enable their use as | spectroscopy detectors. |
| Electric field NMR (EFNMR) | spectroscopy differs from conventional NMR in that a sam |
| partment of Astronomy, UCL, attached to the | Spectroscopy Division of UKAEA Culham Laboratory, 1966-6 |
| of analytical instrumentation for emission | spectroscopy, dual-beam, recording infra-red absorption |
| ed THF is a rarely used as a solvent in NMR | spectroscopy due to its expense. |
| orn British physicist known for his work in | spectroscopy, electrochemistry, optics, X-radiography an |
| as mapping by energy dispersive X-ray (EDX) | spectroscopy, electron energy loss spectroscopy (EELS) a |
| ues such as surface plasmon resonance (SPR) | spectroscopy, ellipsometry, or dual polarisation interfe |
| ke biophotonics, laser-excited luminescence | spectroscopy, etc. |
| Topics includes: general solid state | spectroscopy, experimental and theoretical analysis of c |
| in protein Electron paramagnetic resonance | spectroscopy experiments. |
| However, subsequent studies using Doppler | spectroscopy failed to detect the radial velocity variat |
| These include mid-IR | spectroscopy, fiber-optic sensors, thermometry, and imag |
| etry (MS), nuclear magnetic resonance (NMR) | spectroscopy, fluorescence spectroscopy, dual polarisati |
| cy modes have been indeed observed by Raman | spectroscopy for a number of protein molecules and diffe |
| tenuated total reflection Fourier transform | spectroscopy for on-chip monitoring of solute concentrat |
| the Second World War he worked on infra-red | spectroscopy for the Ministry of Aircraft Production, an |
| a modified form of electron spin resonance | spectroscopy for the analysis of chemical transformation |
| spearheaded the technique of multi-aperture | spectroscopy for observing very faint, high redshift gal |
| NBS, have remained essential references in | spectroscopy for decades. |
| biomedical optics including tissue optical | spectroscopy, frequency-domain photon migration, non-lin |
| Butler, and Marcy et al. using the Doppler | spectroscopy from the Anglo-Australian Telescope. |
| It uses | spectroscopy from the regularly updated GEISA spectral l |
| A with mass spectrometry, Fourier transform | spectroscopy, gas chromatography, or Optical In-Situ Evo |
| sed techniques such as Resonance Ionization | Spectroscopy has allowed relatively easy access to these |
| 2+, which has been observed using microwave | spectroscopy, has a calculated binding energy of 6 kcal/ |
| mic light scattering and photon correlation | spectroscopy has made possible the measurement of the ti |
| g (CP/MAS) nuclear magnetic resonance (NMR) | spectroscopy have been used to characterize nanocellulos |
| Advances in Laser | Spectroscopy I, ed. A. H. Zewail, SPIE, Bellingham, 1977 |
| Near-infrared | spectroscopy images taken 3 years after its discovery le |
| Germanium detectors are mostly used for | spectroscopy in nuclear physics. |
| Laboratory of | spectroscopy in polarized light - UPR 5 |
| ental theory of Raman scattering, molecular | spectroscopy in gases and liquids, neutron physics and m |
| R. F. Egerton; Electron energy-loss | spectroscopy in the electron microscope; Springer, 1996. |
| Spectrochemistry is the application of | spectroscopy in any of several fields of chemistry. |
| used as an internal standard for proton NMR | spectroscopy in D2O. |
| Caesium nitrate prisms are used in infrared | spectroscopy, in x-ray phosphors, and in scintillation c |
| d mass spectrometry, NMR and other forms of | spectroscopy) in order to study complex problems in an i |
| He also worked on | spectroscopy in the band between far ultraviolet and X-r |
| shift reagent in nuclear magnetic resonance | spectroscopy, in order to simultaneously determine absol |
| cific than the general term electromagnetic | spectroscopy in that spectrophotometry deals with visibl |
| ne was observed experimentally by microwave | spectroscopy in a supersonic jet. |
| As with NMR | spectroscopy in general, good resolution requires a high |
| ntist on the use of electron spin resonance | spectroscopy in chemistry. |
| Later work involved solar | spectroscopy in the near infrared and participation in a |
| 17 for his experimental work in using X-ray | spectroscopy in discovering the characteristic X-ray fre |
| 2002 and the 2009 E. Bright Wilson Award in | Spectroscopy in 2008 from The American Chemical Society. |
| Becklin's research is infrared imaging and | spectroscopy, including the search for brown dwarfs, the |
| solubility in most solvents and vibrational | spectroscopy indicate that it is not molecular, but is p |
| chniques such as Nuclear Magnetic Resonance | spectroscopy, Infrared spectroscopy, and Circular Dichro |
| Nuclear magnetic resonance (NMR) | spectroscopy is a widely used resonance method and ultra |
| ified on the surface of Titania by infrared | spectroscopy is carbon dioxide, which is concentrated ma |
| Optics and | Spectroscopy is scientific journal, English version of t |
| An excellent introduction to amateur | spectroscopy is Astronomical Spectroscopy for Amateurs, |
| Spectroscopy is the study of light through light-matter | |
| More generally, integral field | spectroscopy is a subset of 3D-imaging techniques (also |
| An example of applying Absorption | spectroscopy is the first direct detection and chemical |
| Slitless | Spectroscopy is astronomical spectroscopy done without a |
| 31P-NMR | spectroscopy is widely used for studies of phospholipid |
| estimated by the color selection, follow-up | spectroscopy is performed. |
| essary to obtain a high-precision redshift, | spectroscopy is typically much more time-consuming than |
| Reflectance difference | spectroscopy is a spectroscopic technique which measures |
| pplying the Beer-Lambert law directly in AA | spectroscopy is difficult due to variations in the atomi |
| remittere), in | spectroscopy, is the reflection or scattering of light b |
| nd as a result the main difficulty of Raman | spectroscopy is separating the weak inelastically scatte |
| The | spectroscopy is done by analyzing the different displace |
| Spark or arc atomic emission | spectroscopy is used for the analysis of metallic elemen |
| Electron | spectroscopy is an analytical technique to study the ele |
| cs and models of stellar evolution, stellar | spectroscopy is today used to determine a multitude of p |
| Saturated | spectroscopy is the method by which the exact energy of |
| esigning high-resolution NMR probes for NMR | spectroscopy: its volume magnetic susceptibility is a ve |
| In X-ray | spectroscopy, K-alpha emission lines result when an elec |
| versity and a guest scientist of the Atomic | Spectroscopy Laboratory at NIST. |
| ratory in order to create new synthetic and | spectroscopy laboratory suites. |
| of Technology appointed him Director of the | Spectroscopy Laboratory and in 1954, Professor of Chemis |
| In dielectric | spectroscopy, large frequency dependent contributions to |
| His work opened the way to atomic emission | spectroscopy, leading eventually to the discovery of the |
| e in the gas phase (determined by microwave | spectroscopy, left), the Lewis structure (centre) and th |
| d-state chemistry, polymer physics, polymer | spectroscopy, material science and polymer theory. |
| Topical coverage includes nanoprobes, | spectroscopy, materials properties, biological systems, |
| e of low cost applications of photoacoustic | spectroscopy may be the realization of fully integrated |
| ere reported from Arecibo Observatory radio | spectroscopy measurements of the distant starburst galax |
| In general, Doppler | spectroscopy measurements do not measure the true mass o |
| gie Planet Search team, who use the Doppler | spectroscopy method to detect planets. |
| the viewer's line-of-sight and the Doppler | spectroscopy method will not detect the planet at all. |
| 40307 d was discovered through the Doppler | spectroscopy method, which functions by measuring the va |
| In traditional arc | spectroscopy methods, a sample of the solid was commonly |
| Such techniques include micro Raman | spectroscopy, micro infrared spectroscopy and micro LIBS |
| technology, including protein arrays, mass | spectroscopy, microanalytic devices, nanotechnology, and |
| In FTIR | spectroscopy, Mie scattering causes a broad sinusoidal o |
| ately 3 nanometers or less, making electron | spectroscopy most useful to study surfaces of solid mate |
| y, hole burning, photochromism, multiphoton | spectroscopy, new techniques for the study of excited st |
| wafer scale integration, Ultra-fast optical | spectroscopy, nonlinear optics of semiconductors and org |
| itors in such topics as guided waves, laser | spectroscopy, nonlinear optics, quantum optics, lasers, |
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