MRI metamaterial liner

The embodiment of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A liner for a bore of an MRI scanner, the liner installed in the bore and being formed of a metamaterial located adjacent to an internal surface of the bore and comprising unit cells having circumferential extent within the bore, the liner extending less than a full length of the bore. 2. The liner of claim 1 in which the metamaterial comprises plural annular metamaterial segments. 3. The liner of claim 2 in which each annular metamaterial segment has an inner circumferential conductor and an outer circumferential conductor, capacitors on at least one of the inner and outer conductors, and inductors connecting the inner and outer conductors. 4. The liner of claim 2 in which each annular metamaterial segment is configured to be removable from the bore. 5. The liner of claim 1 in which nuclear spins in the bore of the MRI scanner are electromagnetically excited by an antenna located adjacent to the bore. 6. The liner of claim 1 in which nuclear spins in the bore of the MRI scanner are electromagnetically excited by an antenna located within the bore adjacent to the liner. 7. The liner of claim 2 in which a metamaterial segment is electrically connected to a power source to electromagnetically excite nuclear spins in the bore of the MRI scanner. 8. The liner of claim 1 in which when installed in the MRI scanner the liner extends through an intermediate portion of the bore between two ends of the bore and does not extend to either of the two ends. 9. The liner of claim 1 in which the static magnetic field of the MRI scanner has a strength of greater than 1.5 Tesla and less than 7 Tesla. 10. The liner of claim 2 in which each annular metamaterial segment is part of a metamaterial module, the respective metamaterial modules being sized and shaped to be interchangeable. 11. The liner of claim 10 in which the metamaterial modules are configured to connect to adjacent metamaterial modules. 12. The liner of claim 10 in which each metamaterial module comprises an additional bore segment, the additional bore segments forming an additional bore within the scanner bore when the modules are in place within the bore. 13. The liner of claim 12 in which additional modules sized and shaped to be interchangeable with the metamaterial modules are placed within the bore to provide further additional bore segments to cause the additional bore to extend the full length of the scanner bore. 14. The liner of claim 1 in which electromagnetic excitations are produced at the working frequency by an antenna located within the bore adjacent to the liner and connected to a feed line. 15. The liner of claim 10 in which electromagnetic excitations are produced at the working frequency by an antenna located within the bore adjacent to the liner and connected to a feed line and the antenna is in an antenna module, the antenna module being sized and shaped to be interchangeable with the metamaterial modules. 16. The liner of claim 12 in which electromagnetic excitations are produced at the working frequency by a metamaterial segment connected to a feed line and the feed line extends through a gap between the additional bore and the scanner bore. 17. The liner of claim 14 in which the feed line comprises coaxial cable having a sheath grounded to the bore. 18. The liner of claim 1 having a relative electrical permittivity that is negative and near zero at a working frequency of the MRI scanner corresponding to a Larmor frequency in a magnetic field of the MRI scanner. 19. A method of magnetic resonance imaging, the method comprising: supplying an MRI scanner having a scanner bore; positioning a first number of annular metamaterial segments within the bore, to form a metamaterial liner extending a first length within the scanner bore and having a relative electrical permittivity that is negative and near zero at a working frequency of the MRI scanner corresponding to a Larmor frequency in the magnetic field of the MRI scanner; producing first excitations within the first length of the scanner bore; detecting first NMR signals resulting from the first excitations within the first length of the scanner bore to produce a first image; removing one or more of the annular metamaterial segments from the scanner bore to reduce the metamaterial liner to a second length within the scanner bore smaller than the first length; producing second excitations within the second length of the scanner bore; and detecting second NMR signals resulting from the second excitations within the second length of the bore to produce a second image. 20. A liner for a bore of an MRI scanner, the liner installed into the bore and having a relative electrical permittivity that is negative and near zero at a working frequency of the MRI scanner corresponding to a Larmor frequency in the magnetic field of the MRI scanner and being formed of a metamaterial comprising unit cells having circumferential extent within the bore, the liner extending less than a full length of the bore. 21. The liner of claim 20 in which the metamaterial comprises plural annular metamaterial segments. 22. The liner of claim 21 in which each annular metamaterial segment has an inner circumferential conductor and an outer circumferential conductor, capacitors on at least one of the inner and outer conductors, and inductors connecting the inner and outer conductors. 23. The liner of claim 21 in which each annular metamaterial segment is configured to be removable from the bore.