Microwave resonator for an EPR probehead providing Q-, M- and D-variation using a variable fluid volume

The invention claimed is: 1. A microwave resonator for an electron paramagnetic resonance (“EPR”) probehead comprising: a cavity body supporting an electromagnetic microwave resonance mode, and comprising at least one sample opening for inserting a sample in a sample container, at least one microwave opening for transmitting microwave radiation into the resonator, and at least one access opening; a modifier vessel fixed in the at least one access opening for containing a modifier fluid comprising at least one of an attenuator fluid that varies a Q-factor of the resonator, a marker fluid for calibrating an EPR signal of the resonator and an adaptor fluid that varies a dielectric loading of the resonator, the modifier vessel being configured for filling and discharging the modifier fluid gradually into or out of the cavity body; and a modifier reservoir outside the cavity body that is connected to the modifier vessel via a first pump. 2. A resonator according to claim 1 , wherein the cavity body has two access openings for accommodating an inlet and an outlet of the modifier vessel. 3. A resonator according to claim 2 , wherein the two access openings are located symmetrically with respect to a microwave B-field symmetry plane in the cavity body. 4. A resonator according to claim 1 , wherein a part of the modifier vessel extending inside the cavity body is spatially fixed to a support fixed to the cavity body. 5. A resonator according to claim 1 , wherein the cavity body is a cylindrical TE011 mode cavity and the modifier vessel inside the cavity body is arranged to a minimum extent of 50% of its length along a cylindrical surface centered around an axis of the cylindrical TE011 mode cavity. 6. A resonator according to claim 1 wherein the cavity body is a rectangular TE102 mode cavity or a cylindrical TM110 mode cavity and the modifier vessel traverses the walls of the cavity body and runs partially outside the cavity body. 7. A resonator according to claim 1 wherein the modifier vessel inside the cavity body is arranged to a minimum extent of 50% of its length along isolines of constant electric field E for Q-variation and D-variation or along isolines of constant magnetic field B for M-variation. 8. A resonator according to claim 1 wherein the modifier vessel inside the cavity body is arranged to a minimum extent of 80% of its length along isolines of constant electric field E for Q-variation and D-variation or along isolines of constant magnetic field B for M-variation. 9. A resonator according to claim 1 , wherein the modifier vessel is branched to the modifier reservoir via a first valve and to a neutral fluid reservoir via a second valve and a second pump, thereby allowing replacement of the modifier fluid in the cavity body with the neutral fluid, the neutral fluid having no dominant effect on Q-variation and/or M-variation and/or D-variation. 10. A resonator according to claim 1 , wherein the resonator comprises at least two modifier vessels, each modifier vessel containing a different type of modifier fluid. 11. A resonator according to claim 10 , wherein each modifier vessel is connected to a separate modifier reservoir via a pump allowing for independently filling and discharging each modifier fluid into or out of the cavity body. 12. A resonator according to claim 1 , wherein the modifier fluid contains at least two different types of modifier materials. 13. A resonator according to claim 1 , wherein the modifier vessel in the cavity body is arranged to a minimum extent of 50% of its length at the maximum of the electric field energy of the microwave mode for Q-variation, at the minimum of the z-component of the magnetic field strength of the microwave mode for D-variation, in a region where the z-component of the magnetic field strength of the microwave mode is not zero for M-variation, whereas the z-axis is defined by the center of the sample opening and the center of the cavity. 14. A resonator according to claim 1 wherein the modifier vessel comprises a dielectric capillary. 15. An EPR spectrometer with a probehead comprising a microwave resonator according to claim 1 .