Results 291 to 300 of about 1,135,294 (342)
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1974
The nuclei of many atoms constitute spinning charges, whose oscillating electric fields induce localized magnetic moments, which can be oriented in an applied magnetic field. Absorption of electromagnetic radiation of appropriate frequency (range 1–220 MHz) can raise the potential energy of the nuclei, forcing realignment of their magnetic moments in ...
Richard J. Winzler, Donald F. H. Wallach
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The nuclei of many atoms constitute spinning charges, whose oscillating electric fields induce localized magnetic moments, which can be oriented in an applied magnetic field. Absorption of electromagnetic radiation of appropriate frequency (range 1–220 MHz) can raise the potential energy of the nuclei, forcing realignment of their magnetic moments in ...
Richard J. Winzler, Donald F. H. Wallach
openaire +2 more sources
Application of nuclear magnetic resonance (NMR) in coalbed methane and shale reservoirs: A review
International Journal of Coal Geology, 2020Zhengshuai Liu +5 more
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Principles of nuclear magnetic resonance in one and two dimensions
, 1987R. R. Ernst +3 more
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Image Formation by Induced Local Interactions: Examples Employing Nuclear Magnetic Resonance
Nature, 1973P. Lauterbur
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Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments
, 1954H. Carr, E. Purcell
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1988
The behavior of compass needles in the Earth’s magnetic field was introduced in Chapter 1 to present the concept of magnetic resonance. A compass needle is actually a small bar magnet which oscillates at a particular frequency when driven from its resting state.
William Oldendorf, William OldendorfJr.
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The behavior of compass needles in the Earth’s magnetic field was introduced in Chapter 1 to present the concept of magnetic resonance. A compass needle is actually a small bar magnet which oscillates at a particular frequency when driven from its resting state.
William Oldendorf, William OldendorfJr.
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Two‐dimensional spectroscopy. Application to nuclear magnetic resonance
, 1976W. Aue, E. Bartholdi, R. R. Ernst
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1972
As a spectroscopic method, Nuclear Magnetic Resonance (NMR) has seen spectacular growth over the past two decades, both as a technique and in its applications. Today the applications of NMR span a wide range of scientific disciplines, from physics to biology to medicine.
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As a spectroscopic method, Nuclear Magnetic Resonance (NMR) has seen spectacular growth over the past two decades, both as a technique and in its applications. Today the applications of NMR span a wide range of scientific disciplines, from physics to biology to medicine.
openaire +1 more source