1913, 1 p. L., vii-viii, 76 p. incl. tables.
Book
1967, 184
Book
1953, Archiv orientální. Supplementa, Volume 2, 74 p., 4 leaves of plates
Book
Applied Physics Letters, ISSN 0003-6951, 04/2019, Volume 114, Issue 15, p. 152403
A reconfigurable spin logic device is realized using an asymmetric quantum well displaying strong Rashba spin splitting. This design is developed to remove the...
PHYSICS, APPLIED | PRECESSION
PHYSICS, APPLIED | PRECESSION
Journal Article
Journal of Microscopy, ISSN 0022-2720, 10/2013, Volume 252, Issue 1, pp. 23 - 34
Summary A recently developed technique based on the transmission electron microscope, which makes use of electron beam precession together with spot...
precession electron diffraction | TEM orientation and phase mapping | Precession‐assisted crystal orientation mapping | Precession-assisted crystal orientation mapping | Precession electron diffraction | MICROSCOPY | Transmission electron microscopes | Electron microscopes | Microstructure | Scanning electron microscopy | Electron beams | Precession | Mapping | Nanostructure | Orientation | Crystal structure | Material chemistry | Chemical Sciences
precession electron diffraction | TEM orientation and phase mapping | Precession‐assisted crystal orientation mapping | Precession-assisted crystal orientation mapping | Precession electron diffraction | MICROSCOPY | Transmission electron microscopes | Electron microscopes | Microstructure | Scanning electron microscopy | Electron beams | Precession | Mapping | Nanostructure | Orientation | Crystal structure | Material chemistry | Chemical Sciences
Journal Article
Journal of Human Evolution, ISSN 0047-2484, 08/2012, Volume 63, Issue 2, pp. 251 - 273
Ar/ Ar dating of tuffs and lavas of the late Pleistocene volcanic and sedimentary sequence of Olduvai Gorge, north-central Tanzania, provides the basis for a...
Paleoclimate | Precession | Hominin
Paleoclimate | Precession | Hominin
Journal Article
IET Radar, Sonar & Navigation, ISSN 1751-8784, 8/2019, Volume 13, Issue 8, pp. 1242 - 1248
The micro-motion features induced by space targets provide effective information for target classification and recognition. This study introduces the...
Research Article | recognition | DOPPLER | eigenvalues and eigenfunctions | target classification | estimated ERV | feature extraction | radar target recognition | parameter estimation | radar imaging | image sequences | reconstructed radar observation angle | precession parameter estimation method | precession parameters | FEATURE-EXTRACTION | coupled parameters | TELECOMMUNICATIONS | theoretical analysis | ENGINEERING, ELECTRICAL & ELECTRONIC | searching plane | precession period | synthetic aperture radar | precession cone-shaped target | effective information | inverse synthetic aperture radar image sequence analysis | rotation matching relationship | micromotion features | space targets | equivalent rotational velocity estimation | parameter searching set | precession angle
Research Article | recognition | DOPPLER | eigenvalues and eigenfunctions | target classification | estimated ERV | feature extraction | radar target recognition | parameter estimation | radar imaging | image sequences | reconstructed radar observation angle | precession parameter estimation method | precession parameters | FEATURE-EXTRACTION | coupled parameters | TELECOMMUNICATIONS | theoretical analysis | ENGINEERING, ELECTRICAL & ELECTRONIC | searching plane | precession period | synthetic aperture radar | precession cone-shaped target | effective information | inverse synthetic aperture radar image sequence analysis | rotation matching relationship | micromotion features | space targets | equivalent rotational velocity estimation | parameter searching set | precession angle
Journal Article
IEEE Transactions on Medical Imaging, ISSN 0278-0062, 01/2015, Volume 34, Issue 1, pp. 107 - 115
Balanced steady-state free precession (SSFP) imaging suffers from irrecoverable signal losses, known as banding artifacts, in regions of large B0 field...
magnetic resonance imaging (MRI) | PSNR | Banding artifact | compressed sensing | Magnetic resonance imaging | Imaging phantoms | Acceleration | phase cycling | steady-state free precession (SSFP) | random undersampling | Image reconstruction | variable density | ENGINEERING, BIOMEDICAL | RECONSTRUCTION | IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY | ENGINEERING, ELECTRICAL & ELECTRONIC | MUSCULOSKELETAL MRI | ANGIOGRAPHY | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | FAT-WATER SEPARATION | BALANCED SSFP | RELAXATION-TIMES | CONTRAST | STATE FREE PRECESSION | SENSITIVE STEADY-STATE | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | SPIO-LABELED CELLS | Artifacts | Algorithms | Brain - anatomy & histology | Humans | Signal-To-Noise Ratio | Magnetic Resonance Imaging - methods | Image Processing, Computer-Assisted - methods | Knee - anatomy & histology | Phantoms, Imaging | Usage | Sensitivity analysis | Analysis | Statistical sampling | Methods | Imaging systems | Acquisitions | Brain | Banding | Imaging | Images | Inhomogeneity | Marketing
magnetic resonance imaging (MRI) | PSNR | Banding artifact | compressed sensing | Magnetic resonance imaging | Imaging phantoms | Acceleration | phase cycling | steady-state free precession (SSFP) | random undersampling | Image reconstruction | variable density | ENGINEERING, BIOMEDICAL | RECONSTRUCTION | IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY | ENGINEERING, ELECTRICAL & ELECTRONIC | MUSCULOSKELETAL MRI | ANGIOGRAPHY | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | FAT-WATER SEPARATION | BALANCED SSFP | RELAXATION-TIMES | CONTRAST | STATE FREE PRECESSION | SENSITIVE STEADY-STATE | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | SPIO-LABELED CELLS | Artifacts | Algorithms | Brain - anatomy & histology | Humans | Signal-To-Noise Ratio | Magnetic Resonance Imaging - methods | Image Processing, Computer-Assisted - methods | Knee - anatomy & histology | Phantoms, Imaging | Usage | Sensitivity analysis | Analysis | Statistical sampling | Methods | Imaging systems | Acquisitions | Brain | Banding | Imaging | Images | Inhomogeneity | Marketing
Journal Article
1992, ISBN 0140153071, xxii, 378 p., [24] p. of plates
Book
Journal of magnetic resonance imaging, ISSN 1522-2586, 1991
Journal
2005, 2nd ed., ISBN 0195165616, 559
Modern tomographic scans are revealing the structure of the human brain in unprecedented detail. This spectator progress, however, poses a critical problem for...
Image Interpretation, Computer-Assisted | Tomography | Brain | Magnetic Resonance Imaging | anatomy & histology | Other branches of medicine | Magnetic resonance imaging | Atlases | Computerized brain imaging | Neuroanatomical structures | Mr scans | Neuroanatomical differences | Gender | Macroscopic brain anatomy | Species | Age
Image Interpretation, Computer-Assisted | Tomography | Brain | Magnetic Resonance Imaging | anatomy & histology | Other branches of medicine | Magnetic resonance imaging | Atlases | Computerized brain imaging | Neuroanatomical structures | Mr scans | Neuroanatomical differences | Gender | Macroscopic brain anatomy | Species | Age
eBook
Physical Review B - Condensed Matter and Materials Physics, ISSN 1098-0121, 10/2013, Volume 88, Issue 16
We investigate spin and charge transport in both single and bilayer graphene nonlocal spin-valve devices. An inverse dependence of the spin lifetime tau(s) on...
PHYSICS, CONDENSED MATTER | RELAXATION | EPITAXIAL GRAPHENE | PRECESSION
PHYSICS, CONDENSED MATTER | RELAXATION | EPITAXIAL GRAPHENE | PRECESSION
Journal Article
Magnetic Resonance in Medicine, ISSN 0740-3194, 05/2016, Volume 75, Issue 5, pp. 1978 - 1988
Purpose To achieve artifact‐suppressed whole‐brain pass‐band‐balanced steady‐state free precession functional MRI from a single functional magnetic resonance...
balanced steady‐state free precession | fat‐suppression | blood oxygen level‐dependent | whole‐brain | functional magnetic resonance imaging | alternating‐steady‐state free precession | balanced steady-state free precession | whole-brain | blood oxygen level-dependent | fat-suppression | alternating-steady-state free precession | SIGNAL | DESIGN | MODEL | FUNCTIONAL MRI | REDUCTION | BALANCED SSFP | SPIN-ECHO | CONTRAST | STATE FREE PRECESSION | STEADY-STATE | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Brain - diagnostic imaging | Reproducibility of Results | Humans | Signal-To-Noise Ratio | Radio Waves | Breath Holding | Male | Adipose Tissue - diagnostic imaging | Calibration | Image Processing, Computer-Assisted - methods | Healthy Volunteers | Artifacts | Magnetic Resonance Imaging | Vision, Ocular | Oxygen - chemistry | Signal Processing, Computer-Assisted | Female | Neurons - metabolism | Photic Stimulation | Oscillometry | Magnetic resonance imaging | Neurons | Data entry | balanced-SSFP | fMRI | BOLD | alternating-SSFP
balanced steady‐state free precession | fat‐suppression | blood oxygen level‐dependent | whole‐brain | functional magnetic resonance imaging | alternating‐steady‐state free precession | balanced steady-state free precession | whole-brain | blood oxygen level-dependent | fat-suppression | alternating-steady-state free precession | SIGNAL | DESIGN | MODEL | FUNCTIONAL MRI | REDUCTION | BALANCED SSFP | SPIN-ECHO | CONTRAST | STATE FREE PRECESSION | STEADY-STATE | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Brain - diagnostic imaging | Reproducibility of Results | Humans | Signal-To-Noise Ratio | Radio Waves | Breath Holding | Male | Adipose Tissue - diagnostic imaging | Calibration | Image Processing, Computer-Assisted - methods | Healthy Volunteers | Artifacts | Magnetic Resonance Imaging | Vision, Ocular | Oxygen - chemistry | Signal Processing, Computer-Assisted | Female | Neurons - metabolism | Photic Stimulation | Oscillometry | Magnetic resonance imaging | Neurons | Data entry | balanced-SSFP | fMRI | BOLD | alternating-SSFP
Journal Article
Journal of cardiovascular magnetic resonance, ISSN 1097-6647, 1998
Journal
Magnetic Resonance in Medicine, ISSN 0740-3194, 05/2016, Volume 75, Issue 5, pp. 2009 - 2019
Purpose To develop a novel, current‐controlled alternating steady‐state free precession (SSFP)‐based conductivity imaging method and corresponding MR signal...
alternating steady‐state free precession | steady‐state free precession | magnetic resonance imaging | conductivity | steady-state free precession | alternating steady-state free precession | MREIT | ELECTRICAL-IMPEDANCE TOMOGRAPHY | SIMULATION | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Reproducibility of Results | Humans | Signal-To-Noise Ratio | Electric Conductivity | Image Processing, Computer-Assisted - methods | Feasibility Studies | Magnetic Resonance Imaging | Algorithms | Image Enhancement - methods | Magnetic Fields | Nonlinear Dynamics | Phantoms, Imaging | Oscillometry
alternating steady‐state free precession | steady‐state free precession | magnetic resonance imaging | conductivity | steady-state free precession | alternating steady-state free precession | MREIT | ELECTRICAL-IMPEDANCE TOMOGRAPHY | SIMULATION | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Reproducibility of Results | Humans | Signal-To-Noise Ratio | Electric Conductivity | Image Processing, Computer-Assisted - methods | Feasibility Studies | Magnetic Resonance Imaging | Algorithms | Image Enhancement - methods | Magnetic Fields | Nonlinear Dynamics | Phantoms, Imaging | Oscillometry
Journal Article
Magnetic resonance imaging clinics of North America, ISSN 1064-9689, 1993
Journal
Concepts in magnetic resonance, ISSN 1546-6086, 2003
Journal
1965, 966
Book
1897, 4 pts. diag.
Book
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