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Spatially-localized NMR spectroscopy employing an inhomogeneous surface-spoiling magnetic field gradient. 1. Phase coherence spoiling theory and gradient coil design.

NMR in biomedicine

Chen W, Ackerman JJ.
PMID: 2206846
NMR Biomed. 1990 Aug;3(4):147-57. doi: 10.1002/nbm.1940030402.

The use of a current-generated, inhomogeneous, surface-spoiling magnetic field gradient for enhancing magnetic resonance spatial localization, by rapidly inducing spin phase incoherence in surface lying regions of a sample is examined theoretically. A geometrically simple surface-spoiling magnetic field gradient...

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Chen W, Ackerman JJ. Spatially-localized NMR spectroscopy employing an inhomogeneous surface-spoiling magnetic field gradient. 1. Phase coherence spoiling theory and gradient coil design. NMR Biomed. 1990;3(4):147-57doi: 10.1002/nbm.1940030402.
Chen, W., & Ackerman, J. J. (1990). Spatially-localized NMR spectroscopy employing an inhomogeneous surface-spoiling magnetic field gradient. 1. Phase coherence spoiling theory and gradient coil design. NMR in biomedicine, 3(4), 147-57. https://doi.org/10.1002/nbm.1940030402
Chen, W, and Ackerman, J J. "Spatially-localized NMR spectroscopy employing an inhomogeneous surface-spoiling magnetic field gradient. 1. Phase coherence spoiling theory and gradient coil design." NMR in biomedicine vol. 3,4 (1990): 147-57. doi: https://doi.org/10.1002/nbm.1940030402
Chen W, Ackerman JJ. Spatially-localized NMR spectroscopy employing an inhomogeneous surface-spoiling magnetic field gradient. 1. Phase coherence spoiling theory and gradient coil design. NMR Biomed. 1990 Aug;3(4):147-57. doi: 10.1002/nbm.1940030402. PMID: 2206846.
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[Fundamental aspects of magnetic resonance spectroscopy in vivo].

La Radiologia medica

Lanza S.
PMID: 2217934
Radiol Med. 1990 Jul-Aug;80(1):158-63.

No abstract available.

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Lanza S. Elementi fondamentali di spettroscopia RM nel vivente. [Fundamental aspects of magnetic resonance spectroscopy in vivo]. Radiol Med. 1990;80(1):158-63
Lanza, S. (1990). Elementi fondamentali di spettroscopia RM nel vivente. [Fundamental aspects of magnetic resonance spectroscopy in vivo]. La Radiologia medica, 80(1), 158-63.
Lanza, S. "Elementi fondamentali di spettroscopia RM nel vivente." [Fundamental aspects of magnetic resonance spectroscopy in vivo]. La Radiologia medica vol. 80,1 (1990): 158-63.
Lanza S. Elementi fondamentali di spettroscopia RM nel vivente. [Fundamental aspects of magnetic resonance spectroscopy in vivo]. Radiol Med. 1990 Jul-Aug;80(1):158-63. Italian. PMID: 2217934.
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A study of optimization of the complex hyperbolic secant inversion pulses.

Magnetic resonance in medicine

Mao J, Virapongse C, Fitzsimmons JR.
PMID: 2314217
Magn Reson Med. 1990 Feb;13(2):293-8. doi: 10.1002/mrm.1910130211.

The conjugate gradient method is used to optimize the inversion slice profile produced by complex hyperbolic secant selective pulses. An improved quality is obtained for the inversion slice profile at a price, however, of a lower immunity to the...

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Mao J, Virapongse C, Fitzsimmons JR. A study of optimization of the complex hyperbolic secant inversion pulses. Magn Reson Med. 1990;13(2):293-8doi: 10.1002/mrm.1910130211.
Mao, J., Virapongse, C., & Fitzsimmons, J. R. (1990). A study of optimization of the complex hyperbolic secant inversion pulses. Magnetic resonance in medicine, 13(2), 293-8. https://doi.org/10.1002/mrm.1910130211
Mao, J, et al. "A study of optimization of the complex hyperbolic secant inversion pulses." Magnetic resonance in medicine vol. 13,2 (1990): 293-8. doi: https://doi.org/10.1002/mrm.1910130211
Mao J, Virapongse C, Fitzsimmons JR. A study of optimization of the complex hyperbolic secant inversion pulses. Magn Reson Med. 1990 Feb;13(2):293-8. doi: 10.1002/mrm.1910130211. PMID: 2314217.
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Orientation of NMR images: ACR subcommittee's reasoning.

AJNR. American journal of neuroradiology

Axel L.
PMID: 6422726
AJNR Am J Neuroradiol. 1984 Mar-Apr;5(2):217.
Free PMC Article

No abstract available.

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Axel L. Orientation of NMR images: ACR subcommittee's reasoning. AJNR Am J Neuroradiol. 1984;5(2):217
Axel, L. (1984). Orientation of NMR images: ACR subcommittee's reasoning. AJNR. American journal of neuroradiology, 5(2), 217.
Axel, L. "Orientation of NMR images: ACR subcommittee's reasoning." AJNR. American journal of neuroradiology vol. 5,2 (1984): 217.
Axel L. Orientation of NMR images: ACR subcommittee's reasoning. AJNR Am J Neuroradiol. 1984 Mar-Apr;5(2):217. PMID: 6422726; PMCID: PMC8332540.
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[NMR: T1, T2-sensitivity map of signal intensity to diagnosis of NMR-CT].

Kaku igaku. The Japanese journal of nuclear medicine

Torii S, Ikehira H, Fukuda N, Tateno Y, Endou M, Matsumoto T, Iinuma T, Ueshima Y, Nisizawa J.
PMID: 4094172
Kaku Igaku. 1985 Oct;22(10):1461-7.

No abstract available.

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Torii S, Ikehira H, Fukuda N, et al. [NMR: T1, T2-sensitivity map of signal intensity to diagnosis of NMR-CT]. Kaku Igaku. 1985;22(10):1461-7
Torii, S., Ikehira, H., Fukuda, N., Tateno, Y., Endou, M., Matsumoto, T., Iinuma, T., Ueshima, Y., & Nisizawa, J. (1985). [NMR: T1, T2-sensitivity map of signal intensity to diagnosis of NMR-CT]. Kaku igaku. The Japanese journal of nuclear medicine, 22(10), 1461-7.
Torii, S, et al. "[NMR: T1, T2-sensitivity map of signal intensity to diagnosis of NMR-CT]." Kaku igaku. The Japanese journal of nuclear medicine vol. 22,10 (1985): 1461-7.
Torii S, Ikehira H, Fukuda N, Tateno Y, Endou M, Matsumoto T, Iinuma T, Ueshima Y, Nisizawa J. [NMR: T1, T2-sensitivity map of signal intensity to diagnosis of NMR-CT]. Kaku Igaku. 1985 Oct;22(10):1461-7. Japanese. PMID: 4094172.
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[Nuclear magnetic resonance. A technic of the future].

Annales de cardiologie et d'angeiologie

Bernard A, Cacheux C, Cavalier R.
PMID: 4004086
Ann Cardiol Angeiol (Paris). 1985 Mar;34(3):125-7.

Nuclear magnetic resonance, a technique in its early stages in the field of proton imaging, appears to be very promising. It is capable of yielding not only morphological information, but also dynamic and metabolic information.

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Bernard A, Cacheux C, Cavalier R. La résonance magnétique nucléaire. Une technique d'avenir. [Nuclear magnetic resonance. A technic of the future]. Ann Cardiol Angeiol (Paris). 1985;34(3):125-7
Bernard, A., Cacheux, C., & Cavalier, R. (1985). La résonance magnétique nucléaire. Une technique d'avenir. [Nuclear magnetic resonance. A technic of the future]. Annales de cardiologie et d'angeiologie, 34(3), 125-7.
Bernard, A, et al. "La résonance magnétique nucléaire. Une technique d'avenir." [Nuclear magnetic resonance. A technic of the future]. Annales de cardiologie et d'angeiologie vol. 34,3 (1985): 125-7.
Bernard A, Cacheux C, Cavalier R. La résonance magnétique nucléaire. Une technique d'avenir. [Nuclear magnetic resonance. A technic of the future]. Ann Cardiol Angeiol (Paris). 1985 Mar;34(3):125-7. French. PMID: 4004086.
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Expression of relaxation properties within the NMR image.

Annali dell'Istituto superiore di sanita

Orr JS, Lerski RA, Straughan K.
PMID: 6680572
Ann Ist Super Sanita. 1983;19(1):13-7.

No abstract available.

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Orr JS, Lerski RA, Straughan K. Expression of relaxation properties within the NMR image. Ann Ist Super Sanita. 1983;19(1):13-7
Orr, J. S., Lerski, R. A., & Straughan, K. (1983). Expression of relaxation properties within the NMR image. Annali dell'Istituto superiore di sanita, 19(1), 13-7.
Orr, J S, et al. "Expression of relaxation properties within the NMR image." Annali dell'Istituto superiore di sanita vol. 19,1 (1983): 13-7.
Orr JS, Lerski RA, Straughan K. Expression of relaxation properties within the NMR image. Ann Ist Super Sanita. 1983;19(1):13-7. PMID: 6680572.
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Nuclear magnetic resonance. Part A. Spectral techniques and dynamics.

Methods in enzymology

[No authors listed]
PMID: 2811681
Methods Enzymol. 1989;176:1-530.

No abstract available.

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Nuclear magnetic resonance. Part A. Spectral techniques and dynamics. Methods Enzymol. 1989;176:1-530
(1989). Nuclear magnetic resonance. Part A. Spectral techniques and dynamics. Methods in enzymology, 1761-530.
"Nuclear magnetic resonance. Part A. Spectral techniques and dynamics." Methods in enzymology vol. 176 (1989): 1-530.
Nuclear magnetic resonance. Part A. Spectral techniques and dynamics. Methods Enzymol. 1989;176:1-530. PMID: 2811681.
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[Contrast in magnetic resonance imaging].

Radiologia diagnostica

Rinck PA, Muller RN, Harms SE.
PMID: 3615830
Radiol Diagn (Berl). 1987;28(2):151-67.

No abstract available.

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Rinck PA, Muller RN, Harms SE. Kontrast in der Magnetresonanz-Bildgebung. [Contrast in magnetic resonance imaging]. Radiol Diagn (Berl). 1987;28(2):151-67
Rinck, P. A., Muller, R. N., & Harms, S. E. (1987). Kontrast in der Magnetresonanz-Bildgebung. [Contrast in magnetic resonance imaging]. Radiologia diagnostica, 28(2), 151-67.
Rinck, P A, et al. "Kontrast in der Magnetresonanz-Bildgebung." [Contrast in magnetic resonance imaging]. Radiologia diagnostica vol. 28,2 (1987): 151-67.
Rinck PA, Muller RN, Harms SE. Kontrast in der Magnetresonanz-Bildgebung. [Contrast in magnetic resonance imaging]. Radiol Diagn (Berl). 1987;28(2):151-67. German. PMID: 3615830.
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Spatially resolved NQR.

Magnetic resonance imaging

Kimmich R, Rommel E, Nickel P.
PMID: 1461066
Magn Reson Imaging. 1992;10(5):733-9. doi: 10.1016/0730-725x(92)90405-o.

Pure nuclear quadrupole resonance (NQR) was combined with a rotating-frame imaging technique (rho NQRI). The method is suitable for powdery or crystalline materials containing quadrupole nuclei. The spatial information is encoded in the amplitudes of the free-induction decays (FIDs)...

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Kimmich R, Rommel E, Nickel P. Spatially resolved NQR. Magn Reson Imaging. 1992;10(5):733-9doi: 10.1016/0730-725x(92)90405-o.
Kimmich, R., Rommel, E., & Nickel, P. (1992). Spatially resolved NQR. Magnetic resonance imaging, 10(5), 733-9. https://doi.org/10.1016/0730-725x(92)90405-o
Kimmich, R, et al. "Spatially resolved NQR." Magnetic resonance imaging vol. 10,5 (1992): 733-9. doi: https://doi.org/10.1016/0730-725x(92)90405-o
Kimmich R, Rommel E, Nickel P. Spatially resolved NQR. Magn Reson Imaging. 1992;10(5):733-9. doi: 10.1016/0730-725x(92)90405-o. PMID: 1461066.
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Two-dimensional selective adiabatic pulses.

Magnetic resonance in medicine

Conolly S, Pauly J, Nishimura D, Macovski A.
PMID: 1569869
Magn Reson Med. 1992 Apr;24(2):302-13. doi: 10.1002/mrm.1910240211.

Using the technique of separable k-space excitation, we have designed a two-dimensional selective adiabatic pulse that inverts magnetization from a square region in the xy plane with insensitivity to RF variations. We also have designed a two-dimensional adiabatic pulse...

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Conolly S, Pauly J, Nishimura D, et al. Two-dimensional selective adiabatic pulses. Magn Reson Med. 1992;24(2):302-13doi: 10.1002/mrm.1910240211.
Conolly, S., Pauly, J., Nishimura, D., & Macovski, A. (1992). Two-dimensional selective adiabatic pulses. Magnetic resonance in medicine, 24(2), 302-13. https://doi.org/10.1002/mrm.1910240211
Conolly, S, et al. "Two-dimensional selective adiabatic pulses." Magnetic resonance in medicine vol. 24,2 (1992): 302-13. doi: https://doi.org/10.1002/mrm.1910240211
Conolly S, Pauly J, Nishimura D, Macovski A. Two-dimensional selective adiabatic pulses. Magn Reson Med. 1992 Apr;24(2):302-13. doi: 10.1002/mrm.1910240211. PMID: 1569869.
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Magnetic resonance imaging. Basic principles.

Minnesota medicine

Cramer H, Rust RJ.
PMID: 3951419
Minn Med. 1986 Jan;69(1):31-2.

No abstract available.

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Cramer H, Rust RJ. Magnetic resonance imaging. Basic principles. Minn Med. 1986;69(1):31-2
Cramer, H., & Rust, R. J. (1986). Magnetic resonance imaging. Basic principles. Minnesota medicine, 69(1), 31-2.
Cramer, H, and Rust, R J. "Magnetic resonance imaging. Basic principles." Minnesota medicine vol. 69,1 (1986): 31-2.
Cramer H, Rust RJ. Magnetic resonance imaging. Basic principles. Minn Med. 1986 Jan;69(1):31-2. PMID: 3951419.
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Showing 1 to 12 of 182 entries