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S H Koenig

Showing results (11-20 of 114) with videos related to

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Biochemistry|September 21, 1976
Protein rotational relaxation as studied by solvent 1H and 2H magnetic relaxationK Hallenga, S H Koenig
Investigative Radiology|September 1, 1988
Transverse relaxation (1/T2) of solvent protons induced by magnetized spheres and its relevance to contrast enhancement in MRIS H Koenig, P Gillis
Biophysical Journal|July 1, 1981
Exchange of labeled nuclei in the CO2--HCO3--solvent system catalyzed by carbonic anhydraseS H Koenig, R D Brown
Magnetic Resonance in Medicine|August 1, 1995
Theory of 1/T1 and 1/T2 NMRD profiles of solutions of magnetic nanoparticlesS H Koenig, K E Kellar
Academic Radiology|August 1, 1996
Theory of proton relaxation in solutions of magnetic nanoparticles, including the superparamagnetic size rangeS H Koenig, K E Kellar
Investigative Radiology|May 1, 1985
The importance of the motion of water for magnetic resonance imagingS H Koenig, R D Brown
Academic Radiology|April 30, 1998
Blood-pool contrast agents for MRI: a critical evaluationS H Koenig, K E Kellar
Magnetic Resonance in Medicine|November 1, 1992
1/T1 rho and low-field 1/T1 of tissue water protons arise from magnetization transfer to macromolecular solid-state broadened linesR D Brown, S H Koenig
Investigative Radiology|July 1, 1988
The raw and the cooked, or the importance of the motion of water for MRI revisitedS H Koenig, R D Brown
Magnetic Resonance in Medicine|December 1, 1993
A molecular theory of relaxation and magnetization transfer: application to cross-linked BSA, a model for tissueS H Koenig, R D Brown
Pageof 12

Showing results (11-20 of 114) with videos related to

Sort By:
Pageof 12
Biochemistry|September 21, 1976
Protein rotational relaxation as studied by solvent 1H and 2H magnetic relaxationK Hallenga, S H Koenig
Investigative Radiology|September 1, 1988
Transverse relaxation (1/T2) of solvent protons induced by magnetized spheres and its relevance to contrast enhancement in MRIS H Koenig, P Gillis
Biophysical Journal|July 1, 1981
Exchange of labeled nuclei in the CO2--HCO3--solvent system catalyzed by carbonic anhydraseS H Koenig, R D Brown
Magnetic Resonance in Medicine|August 1, 1995
Theory of 1/T1 and 1/T2 NMRD profiles of solutions of magnetic nanoparticlesS H Koenig, K E Kellar
Academic Radiology|August 1, 1996
Theory of proton relaxation in solutions of magnetic nanoparticles, including the superparamagnetic size rangeS H Koenig, K E Kellar
Investigative Radiology|May 1, 1985
The importance of the motion of water for magnetic resonance imagingS H Koenig, R D Brown
Academic Radiology|April 30, 1998
Blood-pool contrast agents for MRI: a critical evaluationS H Koenig, K E Kellar
Magnetic Resonance in Medicine|November 1, 1992
1/T1 rho and low-field 1/T1 of tissue water protons arise from magnetization transfer to macromolecular solid-state broadened linesR D Brown, S H Koenig
Investigative Radiology|July 1, 1988
The raw and the cooked, or the importance of the motion of water for MRI revisitedS H Koenig, R D Brown
Magnetic Resonance in Medicine|December 1, 1993
A molecular theory of relaxation and magnetization transfer: application to cross-linked BSA, a model for tissueS H Koenig, R D Brown
Pageof 12