Multichannel RF volume resonator for MRI

The invention claimed is: 1. A radio frequency (RF) volume resonator system for use in an MR imaging system, the RF volume resonator system comprising: a multi-port RF volume resonator comprising a plurality of ports which are positioned at the resonator for exciting and/or receiving RF/MR signals by transmit and/or receive channels, wherein: a plurality of transmit and/or receive channels is provided which each at least comprise an ON/OFF switch for connecting and disconnecting each one transmit and/or receive channel with/from each one of the ports by switching the related ON/OFF switch between an ON and an OFF state, respectively, wherein the ON/OFF switches can be switched between the ON and the OFF state independently from each other by through an individual switch signal, wherein each of the plurality of transmit and/or receive channels comprises a matching network for matching the related port of the RF volume resonator to an impedance of a connected power amplifier or of a connected low noise amplifier, and a control unit for generating the switch signals for selecting at least two of the ports of the RF resonator for connecting with each one of the transmit and/or receive channels for exciting and/or receiving RF/MR signals for conducting an MR imaging of an examination object. 2. The RF volume resonator system according to claim 1 , wherein the control unit is provided for selecting at least two ports of the RF resonator for connecting with each one of the transmit and/or receive channels in dependence on physical properties of an examination object. 3. The RF volume resonator system according to claim 2 , wherein the physical properties of the examination object are selected such that the homogeneity of a resonant RF mode excited by the RF volume resonator is a maximum and/or the resulting value of the SAR of the examination object is a minimum. 4. The RF volume resonator system according to claim 1 , wherein the multi-port RF volume resonator is a whole body coil or a local coil. 5. The RF volume resonator system according to claim 1 , wherein the multi-port RF volume resonator is an RF birdcage coil or a transverse electromagnetic (TEM) resonator. 6. The RF volume resonator system according to claim 1 , wherein the switches are switched into the ON or the OFF state repeatedly according to a predetermined or desired sequence which is input into the control unit. 7. The RF volume resonator system according to claim 1 , wherein the control unit is provided for predetermining or evaluating values of amplitudes and/or frequencies and/or phases and/or pulse shapes of RF transmit signals to be generated by those transmit/receive channels, which are connected by a related ON/OFF switch in an ON state with a port of the RF resonator, wherein the said values are predetermined or evaluated in dependence on physical properties of an examination object such that the homogeneity of a resonant RF mode excited by the RF volume resonator is a maximum and/or the resulting value of the specific absorption rate (SAR) of the examination object is a minimum. 8. The RF volume resonator system according to claim 1 , wherein at least one of the ports a local coil or sensor coil is arranged for sensing the strength of the local RF current or of the local RF field. 9. The RF volume resonator system according to claim 1 , wherein at least one of the switches comprises a first and a second diode which are connected in series into each one connection line between a port of the RF volume resonator and the related transmit/receive channel, wherein both diodes are connected with their poles in opposite directions to each other, and a first and a second bias voltage source which are each connected in parallel to the first and the second diode, respectively, for biasing the first and the second diode, respectively, conductive or non-conductive, wherein the bias voltage sources are switchable by the switch signal. 10. A method for magnetic resonance (MR) imaging an examination object by the RF volume resonator system according to claim 1 , wherein the MR imaging of the examination object is conducted by providing switch signals to the switches for switching the switches into the ON or OFF state according to a sequence which is predetermined or selected, each in dependence on physical properties of an examination object like volume, weight, size and water/fat ratio such that the homogeneity of a resonant RF mode excited by the RF volume resonator is a maximum and/or the resulting value of the specific absorption rate (SAR) of the examination object is a minimum. 11. The method according to claim 10 , comprising a first step in the form of an MRI pre-scan for evaluating and storing values of amplitudes and/or frequencies and/or phases and/or for evaluating and storing pulse shapes of RF transmit signals to be generated by each of the transmit/receive channels, when they are connected with the related ports by the switches in an ON state, wherein the values are evaluated in dependence on physical properties of an examination object such that the resulting homogeneity of a resonant RF mode excited by the RF resonator is a maximum and/or the resulting value of the SAR of the examination object is a minimum, and a second step in the form of a main MRI scan for MR imaging the examination object by switching the switches into the ON or the OFF state according to a predetermined or desired or an evaluated sequence. 12. The method according to claim 11 , wherein values of amplitudes and/or frequencies and/or phases and/or pulse shapes of RF transmit signals to be generated by each of the transmit/receive channels are selected form a look-up table in dependence on physical properties of an examination object. 13. A magnetic resonance (MR) imaging system comprising the RF volume resonator system according to claim 1 . 14. A radio frequency (RF) volume resonator system for use in an MR imaging system, the RF volume resonator system comprising: a multi-port RF volume resonator comprising a plurality of ports that are positioned at the resonator for exciting and/or receiving RF/MR signals by through transmit and/or receive channels, wherein: a plurality of transmit and/or receive channels is provided wherein each comprise an ON/OFF switch for connecting and disconnecting each one transmit and/or receive channel with/from each one of the ports by switching the related ON/OFF switch between an ON and an OFF state, respectively, wherein the ON/OFF switches can be switched between the ON and the OFF state independently from each other by an individual switch signal; and a control unit for generating the switch signals for selecting at least two of the ports of the RF resonator for connecting with each one of the transmit and/or receive channels for exciting and/or receiving RF/MR signals for conducting an MR imaging of an examination object, wherein the control unit is provided for selecting at least two ports of the RF resonator for connecting with each one of the transmit and/or receive channels in dependence on physical properties of an examination object such that the homogeneity of a resonant RF mode excited by the RF volume resonator is a maximum and/or the resulting value of the specific absorption rate (SAR) of the examination object is a minimum. 15. The RF volume resonator of claim 14 , wherein at least one of the plurality of transmit and/or receive channels comprises a matching network for matching the related port of the RF volume resonator to an impedance of at least one of a group selected from a connected power amplifier and a connected low noise amplifier.