NMR analysis of a core sample employing an open permanent magnet removable from a core holder

What is claimed is: 1. A method for acquiring nuclear magnetic resonance (NMR) measurements of a plurality of subterranean core samples, the method comprising: holding a first core sample in a first core holder under pressurized conditions, the first core holder having a first radio frequency coil disposed about a portion of the first core holder, the first radio frequency coil for generating a pulsed-mode magnetic field component over a sample volume occupied by the first core sample; removably securing a first support structure to the first core holder, the first support structure providing resistance to forces resulting from the pressurized conditions of the first core holder, and the first support structure allowing for access to interior space surrounding the portion of the first core holder and the first radio frequency coil disposed thereabout; removably disposing a permanent magnet into a position within the first support structure about the first radio frequency coil and the portion of the first core holder without the need for depressurization of the first core holder and detachment of the first support structure from the first core holder, the permanent magnet for applying a static magnetic field component to the sample volume occupied by the first core sample for NMR measurements of the first core sample; holding a second core sample in a second core holder under pressurized conditions, the second core holder having a second radio frequency coil disposed about a portion of the second core holder, the second radio frequency coil for generating a pulsed-mode magnetic field component over a sample volume occupied by the second core sample; removably securing a second support structure to the second core holder, the second support structure providing resistance to forces resulting from the pressurized conditions of the second core holder, and the second support structure allowing for access to interior space surrounding the portion of the second core holder and the second radio frequency coil disposed thereabout; removing the permanent magnet from the position within the first support structure about the first radio frequency coil and the portion of the first core holder without the need for depressurization of the first core holder and detachment of the first support structure from the first core holder; and after removing the permanent magnet from the position within the first support structure, removably disposing the permanent magnet into a position within the second support structure about the second radio frequency coil and the portion of the second core holder without the need for depressurization of the second core holder and detachment of the second support structure from the second core holder, the permanent magnet for applying a static magnetic field component to the sample volume occupied by the second core sample for NMR measurements of the second core sample. 2. A method according to claim 1 , further comprising: removing the permanent magnet from the position within the second support structure about the second radio frequency coil and the portion of the second core holder without the need for depressurization of the second core holder and detachment of the second support structure from the second core holder; and after removing the permanent magnet from the position within the second support structure, removably disposing the permanent magnet into a position within at least one additional support structure for NMR measurements of an additional core sample. 3. A method according to claim 1 , wherein: said permanent magnet has an open configuration, the open configuration allowing the permanent magnet to be removably disposed within the first support structure about the first radio frequency coil and the portion of the first core holder without the need for depressurization of the first core holder and detachment of the first support structure from the first core holder, and the open configuration allowing the permanent magnet to be removably disposed within the second support structure about the second radio frequency coil and the portion of the second core holder without the need for depressurization of the second core holder and detachment of the second support structure from the second core holder. 4. A method according to claim 3 , wherein: said permanent magnet includes a U-shaped or C-shaped body that supports two magnet poles, wherein the body defines the open configuration. 5. A method according to claim 4 , wherein: said permanent magnet includes a part that is removably secured to the U-shaped or C-shaped body to reconfigure the permanent magnet in a closed configuration. 6. A method according to claim 3 , wherein: said permanent magnet comprises two cylindrical Halbach-type arrays that are arranged in a concentric configuration during use, said two cylindrical Halbach-type arrays each having two semi-cylindrical portions that are coupled together via a hinge interface, wherein pivoting movement of the two semi-cylindrical portions about the hinge interface permits the two cylindrical Halbach-type arrays to be arranged in the open configuration. 7. A method according to claim 3 , wherein: at least one gradient coil is removably disposed within both the first and second support structures without the need for depressurization of the respective core holder and detachment of the respective support structure from the corresponding core holder. 8. A method according to claim 1 , further comprising: positioning at least one first gradient coil within the first support structure about the first radio frequency coil and the portion of the first core holder, said at least one gradient coil for applying a time varying magnetic field gradient component over the sample volume for NMR measurements of the first sample; and positioning at least one second gradient coil within the second support structure about the second radio frequency coil and the portion of the second core holder, said at least one gradient coil for applying a time varying magnetic field gradient component over the sample volume for NMR measurements of the second sample. 9. A method according to claim 1 , wherein: said first and second support structures each include at least two beams that extend transverse to the central axis of the respective core holder and at least two rods that extend between the at least two beams in a direction parallel to the central axis of the respective core holder. 10. A method according to claim 1 , wherein: said first and second core holders allow for ageing of oil within the first and second core samples under reservoir conditions for NMR measurements of the first and second core samples under reservoir conditions. 11. An apparatus for acquiring nuclear magnetic resonance (NMR) measurements of a subterranean core sample, the apparatus comprising: a core holder for holding the core sample under pressurized conditions; a radio frequency coil disposed about a portion of the core holder, said radio frequency coil for generating a pulsed-mode magnetic field component over a sample volume occupied by the core sample; a support structure that is removably secured to the core holder, the support structure providing resistance to forces resulting from the pressurized conditions of the core holder, and the support structure allowing for access to interior space that surrounds the portion of the core holder and the radio frequency coil disposed thereabout; and a permanent magnet for applying a static magnetic field component to the sample volume, the permanent magnet having an open configuration wherein the permanent magnet is removably disposed within the support stru