Electricity: measuring and testing – Particle precession resonance – Spectrometer components
Reexamination Certificate
1999-03-23
2001-07-03
Oda, Christine (Department: 2862)
Electricity: measuring and testing
Particle precession resonance
Spectrometer components
Reexamination Certificate
active
06255824
ABSTRACT:
FIELD OF THE INVENTION
The invention is in the field of nuclear magnetic resonance (NMR) and more particularly relates to NMR probes capable of generating a magnetic field gradient along the axis of a sample oriented at a selected angle with respect to a polarizing field.
BACKGROUND OF THE INVENTION
It is a standard procedure of analysis by magnetic resonance to rotate a sample at a high rate in a uniform field to obtain an improved average homogeneous sample volume. It is also characteristic of certain specific experiments to orient the rotational axis at a selected angle with respect to the polarizing field. In recent years, the employment of pulsed magnetic field gradients has been introduced for purposes such as solvent suppression or for the detection of multi-quantum coherence.
The combination of these arrangements requires an NMR probe which can supply a desired magnetic field gradient over a sample at specified orientation with respect to a uniform magnetic field.
In the prior art, Bowtell and Peters, J. Mag. Res., series 115, pp.55-59 (1995), describe a design for a gradient coil oriented at the “magic angle” comprising wires disposed as contours on the surface of a cylinder axially coincident with a spinning axis and the spinning axis oriented along the polarizing field. This gradient coil is best described as disposed on the planar surface having dimensions extending from −z
0
to +z
0
by −r&phgr; to +r&phgr; formed by unrolling the cylindrical surface. For the purposes of this work the z direction will be taken as the axis of the cylinder rather than the direction of the polarizing field. The angle &phgr; is the azimuthal angle about the periphery of the cylinder. It is important to note that this prior art places the axis of the rotating sample (coincident with the polarizing axis) while the gradient is designed to be directed at the magic angle with respect to the (coincident ) polarizing/rotational axis.
In another example of prior art, a gradient coil is described for disposition on a cylindrical surface oriented at an angle with respect to the polarizing field and producing a gradient having a linear dependence of magnetic field component B
p
in the polarizing field direction as a function of displacement along the rotational axis z, while maintaining uniform gradient field in the plane perpendicular to the rotational axis. This is obtained with parallel straight line segments disposed to lie in approximately cylindrical distribution and with appropriately selected currents directed through the several segments. This is described in U.S. Pat. No. 5,872,452 to Cory et al. Note that for this approach currents which would be required to produce a field derived from a theoretical infinitely long cylinder must be adapted to the actual available dimensions of an NMR probe. This truncation, in turn, must be considered for the effect upon the resulting gradient.
SUMMARY OF THE INVENTION
The present invention provides a magnetic field gradient disposed at a selected orientation with respect to a uniform magnetic field direction. The gradient field is obtained from a family of coils disposed on the surface of a cylinder with cylindrical axis coincident with the desired orientation. The field is designed to exhibit a substantially linear gradient along the desired orientation for the computed geometry and values of the current paths comprising such coils. The end effects of a truncated geometry are explicitly taken into account.
REFERENCES:
patent: 5872452 (1999-02-01), Cory et al.
Article by Bowtell et al., entitled “Magic-Angle Gradient-Coil Design,” published inJournal of Magnetic Resonancein 1995, Series A 115, pp. 55-59.
Article by W.E. Maas et al., entitled “Gradient, High Resolution, Magic Angle Sample Spinning NMR,” published inJ. Am. Chem. Soc.in 1996, in vol. 118, pp. 13085-13086.
Article by R. Turner, entitled “A target field approach to optimal coil design,” published inJ. Phys D: Appl. Phys. 19in 1986, pp. L147-L151.
Berkowitz Edward H.
Oda Christine
Vargas Dixomara
Varian Inc.
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