Literature DB >> 16636281

Nuclear spin noise imaging.

Norbert Müller1, Alexej Jerschow.   

Abstract

NMR images were obtained from the proton spin noise signals of a water-containing phantom, which was placed in the highly tuned, low-noise resonant circuit of a cryogenically cooled NMR probe in the presence of systematically varied magnetic field gradients. The spatially resolved proton spin density was obtained from the raw signal by a modified projection-reconstruction protocol. Although spin noise imaging is inherently less sensitive than conventional magnetic resonance imaging, it affords an entirely noninvasive visualization of the interior of opaque objects or subjects. Thus, tomography becomes possible even when neither x-ray nor radio frequency radiation can be applied for technical or safety reasons.

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Year:  2006        PMID: 16636281      PMCID: PMC1458973          DOI: 10.1073/pnas.0601743103

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  13 in total

1.  8.0-Tesla human MR system: temperature changes associated with radiofrequency-induced heating of a head phantom.

Authors:  Allahyar Kangarlu; Frank G Shellock; Donald W Chakeres
Journal:  J Magn Reson Imaging       Date:  2003-02       Impact factor: 4.813

2.  Microtesla MRI with a superconducting quantum interference device.

Authors:  Robert McDermott; SeungKyun Lee; Bennie ten Haken; Andreas H Trabesinger; Alexander Pines; John Clarke
Journal:  Proc Natl Acad Sci U S A       Date:  2004-05-12       Impact factor: 11.205

3.  Spectroscopy of spontaneous spin noise as a probe of spin dynamics and magnetic resonance.

Authors:  S A Crooker; D G Rickel; A V Balatsky; D L Smith
Journal:  Nature       Date:  2004-09-02       Impact factor: 49.962

4.  Nuclear-spin noise.

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Journal:  Phys Rev Lett       Date:  1985-10-21       Impact factor: 9.161

5.  A coupled resonator model of the detection of nuclear magnetic resonance: radiation damping, frequency pushing, spin noise, and the signal-to-noise ratio.

Authors:  M Guéron
Journal:  Magn Reson Med       Date:  1991-05       Impact factor: 4.668

6.  Creating order from random fluctuations in small spin ensembles.

Authors:  R Budakian; H J Mamin; B W Chui; D Rugar
Journal:  Science       Date:  2005-01-21       Impact factor: 47.728

7.  Correction of concomitant gradient artifacts in experimental microtesla MRI.

Authors:  Whittier R Myers; Michael Mössle; John Clarke
Journal:  J Magn Reson       Date:  2005-09-15       Impact factor: 2.229

8.  Power deposition in whole-body NMR imaging.

Authors:  P A Bottomley; W A Edelstein
Journal:  Med Phys       Date:  1981 Jul-Aug       Impact factor: 4.071

Review 9.  MR procedures: biologic effects, safety, and patient care.

Authors:  Frank G Shellock; John V Crues
Journal:  Radiology       Date:  2004-07-29       Impact factor: 11.105

Review 10.  Radio frequency continuous-wave and time-domain EPR imaging and Overhauser-enhanced magnetic resonance imaging of small animals: instrumental developments and comparison of relative merits for functional imaging.

Authors:  Sankaran Subramanian; Ken-Ichiro Matsumoto; James B Mitchell; Murali C Krishna
Journal:  NMR Biomed       Date:  2004-08       Impact factor: 4.044
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  14 in total

1.  Signal enhancement in protein NMR using the spin-noise tuning optimum.

Authors:  Martin Nausner; Michael Goger; Eli Bendet-Taicher; Judith Schlagnitweit; Alexej Jerschow; Norbert Müller
Journal:  J Biomol NMR       Date:  2010-10-06       Impact factor: 2.835

2.  Nanoscale magnetic resonance imaging.

Authors:  C L Degen; M Poggio; H J Mamin; C T Rettner; D Rugar
Journal:  Proc Natl Acad Sci U S A       Date:  2009-01-12       Impact factor: 11.205

3.  Magnetic spin imaging under ambient conditions with sub-cellular resolution.

Authors:  S Steinert; F Ziem; L T Hall; A Zappe; M Schweikert; N Götz; A Aird; G Balasubramanian; L Hollenberg; J Wrachtrup
Journal:  Nat Commun       Date:  2013       Impact factor: 14.919

4.  RASER MRI: Magnetic resonance images formed spontaneously exploiting cooperative nonlinear interaction.

Authors:  Sören Lehmkuhl; Simon Fleischer; Lars Lohmann; Matthew S Rosen; Eduard Y Chekmenev; Alina Adams; Thomas Theis; Stephan Appelt
Journal:  Sci Adv       Date:  2022-07-13       Impact factor: 14.957

5.  Observation of NMR noise from solid samples.

Authors:  Judith Schlagnitweit; Jean-Nicolas Dumez; Martin Nausner; Alexej Jerschow; Bénédicte Elena-Herrmann; Norbert Müller
Journal:  J Magn Reson       Date:  2010-08-25       Impact factor: 2.229

6.  A nitrogen-vacancy spin based molecular structure microscope using multiplexed projection reconstruction.

Authors:  Andrii Lazariev; Gopalakrishnan Balasubramanian
Journal:  Sci Rep       Date:  2015-09-15       Impact factor: 4.379

7.  Spin Noise Detection of Nuclear Hyperpolarization at 1.2 K.

Authors:  Maria Theresia Pöschko; Basile Vuichoud; Jonas Milani; Aurélien Bornet; Matthias Bechmann; Geoffrey Bodenhausen; Sami Jannin; Norbert Müller
Journal:  Chemphyschem       Date:  2015-11-13       Impact factor: 3.102

8.  The first observation of Carbon-13 spin noise spectra.

Authors:  Judith Schlagnitweit; Norbert Müller
Journal:  J Magn Reson       Date:  2012-09-13       Impact factor: 2.229

9.  On the tuning of high-resolution NMR probes.

Authors:  Maria Theresia Pöschko; Judith Schlagnitweit; Gaspard Huber; Martin Nausner; Michaela Horničáková; Hervé Desvaux; Norbert Müller
Journal:  Chemphyschem       Date:  2014-09-11       Impact factor: 3.102

10.  Spin-Noise-Detected Two-Dimensional Fourier-Transform NMR Spectroscopy.

Authors:  Kousik Chandra; Judith Schlagnitweit; Christian Wohlschlager; Alexej Jerschow; Norbert Müller
Journal:  J Phys Chem Lett       Date:  2013-10-29       Impact factor: 6.475
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