Add to ORKGBy producing a train of absorption or dispersion signals (continuous‐wave magnetic resonance) or free induction decays (pulsed magnetic resonance) it is possible to save time in spin‐lattice relaxation measurements due to the fact that it is not necessary to wait for equilibrium magnetization before initiating the train. The relaxation time may be calculated from the train according to a simple rapidly converging iteration
International audienceThe calculations developed in this paper aim at determining the optimal condit...
Apparatus and methods for quantification of transverse relaxation times (T2) using steady-state free...
Continuous Wave Nuclear Magnetic Resonance (CW-NMR) was a popular method for sample interrogation at...
By producing a train of absorption or dispersion signals (continuous‐wave magnetic resonance) or fre...
By producing a train of absorption or dispersion signals (continuous‐wave magnetic resonance) or fre...
The work deals with nuclear magnetic resonance and principles of relaxation measurement and diffusio...
This bachelor’s thesis is dedicated to principles of magnetic resonance and measurement of relaxatio...
A method has been developed to measure the spin-lattice and spin-spin relaxation times of the variou...
Laboratory NMR measurements are now a standard method in formation evaluation, with the experiments ...
The further development of the use of NMR relaxation times in chemical, biological and medical resea...
The further development of the use of NMR relaxation times in chemical, biological and medical resea...
The main tendency of this paper is to bring an explanation of the relaxation times that are concur i...
It is shown how Cramér-Rao theory may be used to determine the optimal sampling pattern for measurin...
We use a MARAN-2 laboratory NMR spectrometer for making measurements using the CPMG pulse sequence f...
Bachelor‘s thesis deals with measuring methods of relaxation times T1 and T2 using nuclear magnetic ...
International audienceThe calculations developed in this paper aim at determining the optimal condit...
Apparatus and methods for quantification of transverse relaxation times (T2) using steady-state free...
Continuous Wave Nuclear Magnetic Resonance (CW-NMR) was a popular method for sample interrogation at...
By producing a train of absorption or dispersion signals (continuous‐wave magnetic resonance) or fre...
By producing a train of absorption or dispersion signals (continuous‐wave magnetic resonance) or fre...
The work deals with nuclear magnetic resonance and principles of relaxation measurement and diffusio...
This bachelor’s thesis is dedicated to principles of magnetic resonance and measurement of relaxatio...
A method has been developed to measure the spin-lattice and spin-spin relaxation times of the variou...
Laboratory NMR measurements are now a standard method in formation evaluation, with the experiments ...
The further development of the use of NMR relaxation times in chemical, biological and medical resea...
The further development of the use of NMR relaxation times in chemical, biological and medical resea...
The main tendency of this paper is to bring an explanation of the relaxation times that are concur i...
It is shown how Cramér-Rao theory may be used to determine the optimal sampling pattern for measurin...
We use a MARAN-2 laboratory NMR spectrometer for making measurements using the CPMG pulse sequence f...
Bachelor‘s thesis deals with measuring methods of relaxation times T1 and T2 using nuclear magnetic ...
International audienceThe calculations developed in this paper aim at determining the optimal condit...
Apparatus and methods for quantification of transverse relaxation times (T2) using steady-state free...
Continuous Wave Nuclear Magnetic Resonance (CW-NMR) was a popular method for sample interrogation at...