Virtual coil emulation in parallel transmission MRI

The invention claimed is: 1. A method of performing a magnetic resonance imaging scan for acquiring a magnetic resonance image of an object, wherein the scan is performed using a physical coil arrangement comprising set of individual transmit coils, the coils being adapted for transmission of an RF transmit field to the object for magnetic resonance spin excitation of the object, wherein each coil is associated with a physical transmit channel, the method comprising: a) selecting a desired RF transmit field to be generated by the coils, said RF transmit field corresponding to a virtual arrangement of two or more of said coils, wherein virtual transmit channel properties comprising virtual transmit channel weights are assigned to the RF transmit field, said virtual transmit channel weights describing the virtual complex RF field amplitudes with respect to each individual coil of the virtual coil arrangement required to be applied to the physical coils for generating the RF transmit field, b) transforming the virtual transmit channel properties using a channel encoding matrix, the transmit channel encoding matrix describing a transformation of the virtual transmit channel properties of the virtual coil arrangement to physical transmit channel properties of the physical coil arrangement, c) measuring individual virtual coil sensitivities of the two or more virtual coils using the respective transformed individual virtual transmit channel property for each virtual coil, wherein the RF transmit field of each individual virtual coil is given by the combination of the corresponding virtual transmit channel property and the corresponding virtual coil sensitivity, d) optimizing the individual virtual transmit channel properties for each virtual coil using the measured virtual coil sensitivities in order to obtain the desired RF transmit field at higher accuracy, e) transforming the optimized virtual transmit channel properties using the channel encoding matrix, said transformation resulting in physical transmit channel properties comprising physical transmit channel weights, said physical transmit channel weights describing the physical complex RF field amplitudes with respect to each individual coil of the physical coil arrangement, f) performing the magnetic resonance imaging scan using the physical transmit channel properties. 2. The method of claim 1 , wherein the physical and virtual transmit channel properties further or alternatively comprise time dependent RF pulse waveforms for each virtual coil, wherein the transformation of the virtual transmit channel properties and the optimized virtual transmit channel properties considers the time dependency of said RF pulse waveforms. 3. The method of claim 2 , wherein the steps a) to e) are repeated for different desired RF transmit fields of an MR imaging sequence at different points in time, wherein in step f) the magnetic resonance imaging scan is performed using the physical transmit channel properties corresponding to the different desired RF transmit fields at the different points in time. 4. The method of claim 1 , wherein optimizing the individual virtual transmit channel property for each virtual coil using the measured virtual coil sensitivities in order to obtain the desired RF transmit field at higher spatial homogeneity at the object to be imaged. 5. The method of claim 1 , further comprising determining a transmit channel encoding matrix, wherein said determination is performed by mathematical simulation of the desired RF transmit field considering the presence of the object to be imaged and/or direct a priori measurements of the physical transmit coil sensitivities of the coils and/or determination of RF reception properties of the coils and calculation of the physical transmit coil sensitivities of the coils from the reception properties. 6. The method of claim 1 , wherein the method is performed by a controller of a magnetic resonance imaging system, wherein the controller comprises a methods component, a virtual coil emulation component and a driver component, wherein the methods component controls performing steps a), c), d) and f) and the virtual coil emulation component controls performing steps b) and e), wherein the methods component controls the driver component via the virtual coil emulation component for driving the coils, wherein the virtual coil emulation component emulates the presence of only the virtual coil arrangement to the methods component. 7. The method of claim 6 , wherein the virtual coil arrangement emulated to the methods component comprises a number of virtual coils. 8. The method of claim 7 , wherein the number of virtual coils depends on the object, in particular a target anatomy to be imaged, and/or the desired imaging sequence used for performing the magnetic resonance imaging scan and/or a desired coil type to be used for performing the magnetic resonance imaging scan and/or an authentication of the user of the controller. 9. The method of claim 7 , wherein the number of virtual coils depends on a maximum specific absorption rate level to be exposed to the object. 10. A magnetic resonance imaging system adapted for performing a magnetic resonance imaging scan for acquiring a magnetic resonance image of an object, wherein the system comprises a physical coil arrangement comprising set of individual transmit coils adapted to perform the scan, the coils being adapted for transmission of an RF transmit field to the object for magnetic resonance spin excitation of the object, wherein each coil is associated with a physical transmit channel, the system being adapted for: a) selecting an desired RF transmit field to be generated by the coils, said RF transmit field corresponding to a virtual arrangement of two or more of said coils, wherein virtual transmit channel properties comprising virtual transmit channel weights are assigned to the RF transmit field, said virtual transmit channel weights describing the virtual complex RF field amplitudes with respect to each individual coil of the virtual coil arrangement required to be applied to the physical coils for generating the RF transmit field, b) transforming the virtual transmit channel properties using a channel encoding matrix, the transmit channel encoding matrix describing a transformation of the virtual transmit channel properties of the virtual coil arrangement to physical transmit channel properties of the physical coil arrangement, c) measuring individual virtual coil sensitivities of the two or more virtual coils using the respective transformed individual virtual transmit channel property for each virtual coil, wherein the RF transmit field of each individual virtual coil is given by the combination of the corresponding virtual transmit channel property and the corresponding virtual coil sensitivity, d) optimizing the individual virtual transmit channel properties for each virtual coil using the measured virtual coil sensitivities in order to obtain the desired RF transmit field at higher accuracy, e) transforming the optimized virtual transmit channel properties using the channel encoding matrix, said transformation resulting in physical transmit channel properties comprising physical transmit channel weights, said physical transmit channel weights describing the physical complex RF field amplitudes with respect to each individual coil of the physical coil arrangement, f) performing the magnetic resonance imaging scan using the physical transmit channel properties. 11. The system of claim 10 , further comprising a controller for controlling steps a) to f), wherein the controller comprises a methods component, a virtual coil emulation