Angular-momentum detection in magnetic resonance at low fields

1967 ◽  
Vol 52 (2) ◽  
pp. 379-391 ◽  
Author(s):  
E. Arimondo
Keyword(s):  
Angular Momentum ◽  
Magnetic Resonance

Magnetic Resonance with Large Angular Momentum

1964 ◽  
Vol 135 (1A) ◽  
pp. A39-A43 ◽  
Author(s):  
J. W. Cederberg ◽  
N. F. Ramsey
Keyword(s):  
Angular Momentum ◽  
Magnetic Resonance ◽  
Large Angular Momentum

Micromechanical detection of magnetic resonance by angular momentum absorption

1996 ◽  
Vol 69 (25) ◽  
pp. 3920-3922 ◽  
Author(s):  
C. Ascoli ◽  
P. Baschieri ◽  
C. Frediani ◽  
L. Lenci ◽  
M. Martinelli ◽  
...  
Keyword(s):  
Angular Momentum ◽  
Magnetic Resonance

scholarly journals A Paediatric Pulmonary Electron based Magnetic Resonance Imaging Technique Exploiting Electron Orbital Angular Momentum Spin and the ‘Celalettin Tunnel Conjecture’

2020 ◽  
pp. 1-5
Author(s):  
Metin Celalettin ◽  
Keyword(s):  
Magnetic Resonance Imaging ◽  
Angular Momentum ◽  
Magnetic Resonance ◽  
Severe Acute Respiratory Syndrome ◽  
Orbital Angular Momentum ◽  
Imaging Technique ◽  
Electric Polarization ◽  
Resonance Imaging ◽  
Electron Orbital ◽  
Magnetic Resonance Imaging Mri

The ‘Celalettin-Field Quantum Observation Tunnel’ (Celalettin Tunnel) is a quantum observation technique. It is within a pneumatic manifold of Euclidean space where the randomness of particle Orbital Angular Momentum (OAM) is mitigated via electric polarization. It is described by the ‘Celalettin Tunnel Conjecture’. ‘Celalettin Tunnel Conjecture’ can be exploited to propose a paediatric ‘Magnetic Resonance Imaging’ (MRI) machine in pulmonary diagnostics for Severe Acute Respiratory Syndrome Coronavirus-2’ in paediatric patients to avoid the need to administer General Anaesthesia

scholarly journals Optical Detection of Magnetic Resonance

2020 ◽  
Author(s):  
Dieter Suter
Keyword(s):  
Angular Momentum ◽  
Rare Earth ◽  
Magnetic Resonance ◽  
Spin System ◽  
Transition Metal Ions ◽  
Momentum Conservation ◽  
Physical Systems ◽  
Molecular Systems ◽  
Basic Physics ◽  
Dielectric Solids

Abstract. The combination of magnetic resonance with laser spectroscopy provides some interesting options for increasing the sensitivity and information content of magnetic resonance. This review covers the basic physics behind the relevant processes, such as angular momentum conservation during absorption and emission. This can be used to enhance the polarization of the spin system by orders of magnitude compared to thermal polarisation as well as for detection with sensitivities down to the level of individual spins. These fundamental principles have been used in many different fields. This review summarises some of the examples in different physical systems, including atomic and molecular systems, dielectric solids composed of rare earth and transition metal ions and semiconductors.

scholarly journals Optical detection of magnetic resonance

2020 ◽  
Vol 1 (1) ◽  
pp. 115-139 ◽  
Author(s):  
Dieter Suter
Keyword(s):  
Angular Momentum ◽  
Rare Earth ◽  
Magnetic Resonance ◽  
Transition Metal Ions ◽  
Momentum Conservation ◽  
Physical Systems ◽  
Molecular Systems ◽  
Basic Physics ◽  
Thermal Polarization ◽  
Dielectric Solids

Abstract. The combination of magnetic resonance with laser spectroscopy provides some interesting options for increasing the sensitivity and information content of magnetic resonance. This review covers the basic physics behind the relevant processes, such as angular momentum conservation during absorption and emission. This can be used to enhance the polarization of the spin system by orders of magnitude compared to thermal polarization as well as for detection with sensitivities down to the level of individual spins. These fundamental principles have been used in many different fields. This review summarizes some of the examples in different physical systems, including atomic and molecular systems, dielectric solids composed of rare earth, and transition metal ions and semiconductors.1

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