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Books on the topic 'Magnetic instrumentation'

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1

R, Thomas Stephen, and Dixon Robert L. 1940-, eds. NMR in medicine: The instrumentation and clinical applications. New York, NY: Published for the American Association of Physicists in Medicine by the American Institute of Physics, 1986.

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2

Knopp, Tobias. Magnetic Particle Imaging: An Introduction to Imaging Principles and Scanner Instrumentation. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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3

Carolyn, Kaut, ed. MRI in practice. 2nd ed. Oxford [England]: Blackwell Science, 1998.

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4

Carolyn, Kaut, ed. MRI in practice. Oxford [England]: Blackwell Scientific Publications, 1993.

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5

Faulkner, William. Rad tech's guide to MRI: Basic physics, instrumentation, and quality control. Malden, Mass: Blackwell Science, 2002.

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6

Schultz, Gerrit. Magnetic Resonance Imaging with Nonlinear Gradient Fields: Signal Encoding and Image Reconstruction. Wiesbaden: Springer Fachmedien Wiesbaden, 2013.

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7

Kahn, Thomas. Interventional Magnetic Resonance Imaging. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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8

NATO Advanced Study Institute on Cerebral Blood Flow: Mathematical Models, Instrumentation, and Imaging Techniques for the Study of CBF (1986 L'Aquila, Italy). Cerebral blood flow: Mathematical models, instrumentation, and imaging techniques. New York: Plenum Press, 1988.

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9

Shahbakhti, F. Studies on hall effect based energy metres and associated magnetic flux density instrumentation. Manchester: UMIST, 1992.

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10

G, Gadian David, ed. NMR and its applications to living systems. 2nd ed. Oxford: Oxford University Press, 1995.

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11

Michael, Sigwarth, National Solar Observatory (U.S.), and Sacramento Peak Observatory, eds. Advanced solar polarimetry: Theory, observation, and instrumentation : proceedings of the 20th Sacramento Peak Summer Workshop held at National Solar Observatory, Sacramento Peak, Sunspot, New Mexico, USA, 11-15 September 2000. San Francisco, Calif: Astronomical Society of the Pacific, 2001.

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12

Elliott, Ian. Handbook of small animal MRI. Chichester, West Sussex, U.K: Wiley-Blackwell, 2010.

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13

RF coils for MRI. Chichester, West Sussex: John Wiley and Sons, 2012.

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14

TDCR, Cole David, and Sassano Antonio, eds. Ultrasound physics and technology: How, why, and when. Edinburgh: Churchill Livingstone, 2009.

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15

Elliott, Ian. Handbook of small animal MRI. Chichester, West Sussex, U.K: Wiley-Blackwell, 2010.

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16

service), ScienceDirect (Online, ed. Biophysical tools for biologists: In vivo techniques. Amsterdam: Elsevier Academic Press, 2008.

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17

Thompson, Thomas T. A practical approach to modern imaging equipment. 2nd ed. Boston: Little, Brown, 1985.

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18

Ives, Edward D. The tape-recorded interview: A manual for fieldworkers in folklore and oral history. 2nd ed. Knoxville: University of Tennessee Press, 1995.

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19

Mee, C. Denis. Magnetic Recording: Video Audio and Instrumentation Recording (Magnetic Recording Vol. III). McGraw-Hill Companies, 1988.

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20

Canet, Daniel, David Lurie, Siegfried Stapf, Hans-Martin Vieth, and Duarte de Mesquita e Sousa. Field-Cycling NMR Relaxometry: Instrumentation, Model Theories and Applications. Royal Society of Chemistry, The, 2018.

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21

Buzug, Thorsten M., and Tobias Knopp. Magnetic Particle Imaging: An Introduction to Imaging Principles and Scanner Instrumentation. Springer, 2012.

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22

Buzug, Thorsten M., and Tobias Knopp. Magnetic Particle Imaging: An Introduction to Imaging Principles and Scanner Instrumentation. Springer, 2012.

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23

Seeram, Euclid, and Faulkner William H. Jr. Rad Tech's Guide to MRI: Basic Physics, Instrumentation, and Quality Control. Wiley & Sons, Incorporated, John, 2020.

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24

Seeram, Euclid, and Faulkner William H. Jr. Rad Tech's Guide to MRI: Basic Physics, Instrumentation, and Quality Control. Wiley & Sons, Incorporated, John, 2020.

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25

Rad Tech's Guide to MRI: Basic Physics, Instrumentation, and Quality Control. Wiley & Sons, Limited, John, 2020.

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26

(Editor), Sandra S. Eaton, Gareth R. Eaton (Editor), and Lawrence J. Berliner (Editor), eds. Biomedical EPR - Part B: Methodology, Instrumentation, and Dynamics (Biological Magnetic Resonance). Springer, 2004.

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27

Faulkner, William H., Euclid Seeram, and Faulkner William H. Jr. Rad Tech's Guide to MRI: Basic Physics, Instrumentation, and Quality Control. Wiley & Sons, Incorporated, John, 2013.

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28

Faulkner, William H., Euclid Seeram, and William H. Jr Faulkner. Rad Tech's Guide to MRI: Basic Physics, Instrumentation, and Quality Control. Wiley & Sons, Incorporated, John, 2013.

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29

Garcia, Ernest V., James R. Galt, and Ji Chen. SPECT and PET Instrumentation. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0003.

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Nuclear cardiac imaging is solidly based on many branches of science and engineering, including nuclear, optical and mathematical physics, electrical and mechanical engineering, chemistry and biology. This chapter uses principles from these scientific fields to provide an understanding of both the signals used, and the imaging system that captures these signals. Nuclear cardiology’s signals are the x-rays or ?-rays photons emitted from a radioactive tracer and its imaging systems are either single-photon emission computed tomography (SPECT) or positron emission tomography (PET) cameras. This combination has met with remarkable success in clinical cardiology. This success is due to the combination of sophisticated electronic nuclear instruments with a highly specific and thus powerful signal. The signal is as important as or more important than the imaging system. There is a misconception that cardiac magnetic resonance (CMR) cardiac computed tomography (CCT) and echocardiography are superior to nuclear cardiology imaging because of their superior spatial resolution. Yet, in detecting perfusion defects what is really necessary is superior contrast resolution. It is this superior contrast resolution that allows us to differentiate between normal and hypoperfused myocardium facilitating the visual analysis of nuclear cardiology perfusion images. Because these objects are bright compared to the background radioactivity, computer algorithms have been developed that allow us to automatically and objectively process and quantify our images. This chapter explains many of the important scientific principles necessary to understand nuclear cardiology imaging in general, i.e., how these sophisticated imaging systems detect the radiation emitted from the radiotracers.
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30

Nanny, Mark A., Roger A. Minear, and Jerry A. Leenheer, eds. Nuclear Magnetic Resonance Spectroscopy in Environment Chemistry. Oxford University Press, 1997. http://dx.doi.org/10.1093/oso/9780195097511.001.0001.

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This book demonstrates the usefulness of NMR spectroscopy for a wide variety of applications in environmental science and technology. It contains a wealth of information relating to instrumentation, sample preparation, and data interpretation. The book is divided into three sections discussing contaminant interaction, solution and condensed-phase characterization, and nutrients and natural organic matter characterization. In addition to these in-depth chapters, an introductory overview provides the basic principles of solution and solid-state NMR spectroscopy. Each section also contains a discussion of advances in each area directly attributable to NMR spectroscopy. A final chapter suggests future directions for the deployment of this powerful technology in environmental science.
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31

Rovnyak, David, Leo Gross, Razvan Teodorescu, Clemens Anklin, and Eriks Kupce. Modern NMR Approaches to the Structure Elucidation of Natural Products Vol. 1 : Volume 1: Instrumentation and Software. Royal Society of Chemistry, The, 2015.

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32

(Editor), Andrea Boicelli, and Aldo Rescigno (Editor), eds. Cerebral Blood Flow: Mathematical Models, Instrumentation, and Imaging Techniques (NATO ASI SERIES). Springer, 1989.

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33

Peter A., M.D. Rothschild (Editor) and Debra Reinking, M.D. Rothschild (Editor), eds. Open Mri. Lippincott Williams & Wilkins, 2000.

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34

Dawson, M. Joan. Paul Lauterbur and the Invention of MRI. MIT Press, 2013.

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35

Dawson, M. Joan. Paul Lauterbur and the Invention of MRI. MIT Press, 2013.

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36

Dawson, M. Joan. Paul Lauterbur and the Invention of MRI. MIT Press, 2013.

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37

A, Mulvaney James, Society of Photographic Scientists and Engineers., Society of Photo-optical Instrumentation Engineers., and American Roentgen Ray Society, eds. Medical imaging and instrumentation '85: Practical applications of conventional and new imaging technologies : April 21-23, 1985, Back Bay Hilton Hotel, Boston, Massachusetts. Bellingham, Wash., USA: SPIE--the International Society of Optical Engineering, 1985.

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38

(Editor), Sandra S. Eaton, Gareth R. Eaton (Editor), and Lawrence J. Berliner (Editor), eds. Biomedical EPR, Part A: Free Radicals, Metals, Medicine, and Physiology. Part B: Methodology, Instrumentation, and Dynamics (Biological Magnetic Resonance). Springer, 2008.

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39

Dixon, Robert L. Mri Acceptance Testing and Quality Control: The Role of the Clinical Medical Physicist. Medical Physics Pub Corp, 1988.

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40

1940-, Dixon Robert L., American Association of Physicists in Medicine., and Bowman Gray School of Medicine., eds. MRI acceptance testing and quality control: The role of the clinical medical physicist : proceedings of an AAPM symposium held April 6-8, 1988 in Winston-Salem, North Carolina, in cooperation with the Bowman Gray School of Medicine of Wake Forest University. Madison, Wis: Medical Physics Pub. Corp., 1988.

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41

IEEE Power Engineering Society. Transmission and Distribution Committee. IEEE Recommended Practice for Instrumentation: Specifications for Magnetic Flux Density and Electric Field Strength Meters-10Hz to 3Khz (Ieee Std 1308-1994). Inst of Elect & Electronic, 1995.

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42

Elliot, Ian, and Geoff Skerrit. Handbook of Veterinary MRI. Blackwell Publishing Limited, 2007.

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43

Collinson, D. Methods in Rock Magnetism and Palaeomagnetism: Techniques And Instrumentation. Springer, 2013.

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44

Practical Appr Mod Imag Equip. 2nd ed. Lippincott Williams & Wilkins, 1985.

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