Publication

Instantaneous magnetic resonance spectroscopy of a sample

Chipaux, M. S. & Schirhagl, R., 12-Jul-2018, Patent No. WO2018128543, Priority date 6-Jan-2017

Research output: PatentProfessional

APA

Chipaux, M. S., & Schirhagl, R. (2018). Instantaneous magnetic resonance spectroscopy of a sample. (Patent No. WO2018128543).

Author

Chipaux, Mayeul Sylvain (Inventor) ; Schirhagl, Romana (Inventor). / Instantaneous magnetic resonance spectroscopy of a sample. Patent No.: WO2018128543.

Harvard

Chipaux, MS & Schirhagl, R 2018, Instantaneous magnetic resonance spectroscopy of a sample, Patent No. WO2018128543.

Standard

Instantaneous magnetic resonance spectroscopy of a sample. / Chipaux, Mayeul Sylvain (Inventor); Schirhagl, Romana (Inventor).

Patent No.: WO2018128543.

Research output: PatentProfessional

Vancouver

Chipaux MS, Schirhagl R, inventors. Instantaneous magnetic resonance spectroscopy of a sample. WO2018128543. 2018 Jul 12.


BibTeX

@misc{01fc0cac77cb4d51877bb08d17ff6ae0,
title = "Instantaneous magnetic resonance spectroscopy of a sample",
abstract = "The present disclosure relates to a method and system for measuring a magnetic resonance spectrum (M) of a sample (11s). The sample (11s) to be measured is provided in proximity to a sensor array (12). The sensor array (12) comprises a plurality of magnetic resonance sensors (12s) distributed along a predetermined coordinate (X) of the sensor array (12). A magnetic field gradient is applied over the sample (11s) such that the magnetic field (B) varies over different regions (S) of the sample (11s) as a function of a respective position of each sample region (S) along the coordinate (X). Sensor signals (Lu) of the magnetic resonance sensors (12s) are recorded as a function of the coordinate (X) to determine the magnetic resonance spectrum (M).",
author = "Chipaux, {Mayeul Sylvain} and Romana Schirhagl",
year = "2018",
month = "7",
day = "12",
language = "English",
type = "Patent",
note = "WO2018128543",

}

RIS

TY - PAT

T1 - Instantaneous magnetic resonance spectroscopy of a sample

AU - Chipaux, Mayeul Sylvain

AU - Schirhagl, Romana

PY - 2018/7/12

Y1 - 2018/7/12

N2 - The present disclosure relates to a method and system for measuring a magnetic resonance spectrum (M) of a sample (11s). The sample (11s) to be measured is provided in proximity to a sensor array (12). The sensor array (12) comprises a plurality of magnetic resonance sensors (12s) distributed along a predetermined coordinate (X) of the sensor array (12). A magnetic field gradient is applied over the sample (11s) such that the magnetic field (B) varies over different regions (S) of the sample (11s) as a function of a respective position of each sample region (S) along the coordinate (X). Sensor signals (Lu) of the magnetic resonance sensors (12s) are recorded as a function of the coordinate (X) to determine the magnetic resonance spectrum (M).

AB - The present disclosure relates to a method and system for measuring a magnetic resonance spectrum (M) of a sample (11s). The sample (11s) to be measured is provided in proximity to a sensor array (12). The sensor array (12) comprises a plurality of magnetic resonance sensors (12s) distributed along a predetermined coordinate (X) of the sensor array (12). A magnetic field gradient is applied over the sample (11s) such that the magnetic field (B) varies over different regions (S) of the sample (11s) as a function of a respective position of each sample region (S) along the coordinate (X). Sensor signals (Lu) of the magnetic resonance sensors (12s) are recorded as a function of the coordinate (X) to determine the magnetic resonance spectrum (M).

M3 - Patent

M1 - WO2018128543

ER -

ID: 66479129