Ct x-ray tube with an anode plate where angular velocity varies with time

1 . A computed tomography x-ray tube for generating pulsed x-rays, comprising: an anode; an electron emission configured to generate a pulsed electron beam onto the anode, wherein the electron emission comprises a grid switch for generating the pulsed electron beam; and a rotation mechanism for rotating the anode, wherein the rotation mechanism is configured to rotate the anode with an angular velocity which varies in time, such that the variation of the angular velocity in time is a continuous periodic oscillation around a mean angular velocity in time, and wherein a rotational frequency of the anode and a switching frequency of the grid switch do not coincide. 2 . The computed tomography x-ray tube according to claim 1 , wherein the rotation mechanism comprises a stator-rotor combination configured to rotate the anode, and wherein the rotation mechanism is configured to vary in the stator at least one of a frequency of an electrical current and an electrical power. 3 . The computed tomography x-ray tube according to claim 1 , wherein the rotation mechanism is configured to vary the angular velocity in time such that the angular velocity of the anode follows a predefined time development and does not require measuring and controlling a rotation frequency of the anode. 4 . The computed tomography x-ray tube according to claim 1 , wherein the x-ray tube is a stereo tube having two focal spots of electron beams generated in an alternating manner. 5 . The computed tomography x-ray tube according to claim 1 , wherein the angular velocity varies in time according to a following formula: ω( t )=ω 0 +Δω sin Ω t, wherein ω 0 is the mean angular velocity. 6 . The computed tomography x-ray tube according to claim 5 , wherein Δω fulfils one of 1% ω 0 ≤Δω≤6% ω 0 , 2% w 0 ≤Δω≤5% w 0 , and 3% ω 0 ≤Δω≤4% ω 0 . 7 . The computed tomography x-ray tube according to claim 5 , wherein Ω is 2π2 Hz. 8 . The computed tomography x-ray tube according to claim 1 , wherein the electron emission is configured to generate the pulsed electron beam with a pulse duration between 10 microseconds and 500 milliseconds, between 10 microseconds and 250 milliseconds, or between 10 microseconds and 100 milliseconds. 9 . The computed tomography device for generating images of a patient, the computer tomography device comprising: an x-ray tube according to claim 1 ; and a gantry, wherein the computed tomography device is configured to cause the gantry to undergo a rotational movement during imaging, and wherein the angular velocity of the anode and the rotational movement of the gantry during imaging are de-synchronized due to the variation in time of the angular velocity of the anode. 10 . A method of generating pulsed x-ray radiation with a rotating anode and a pulsed electron beam, comprising: emitting the pulsed electron beam onto the anode; and rotating the anode with an angular velocity which varies in time, wherein the anode is rotated such that the variation of the angular velocity in time is a continuous oscillation around a mean angular velocity in time, and wherein the electron beam is pulsed by a grid switch, wherein a rotational frequency of the anode and a switching frequency of the grid switch do not coincide. 11 . The method according to claim 11 , further comprising: driving the anode rotation by a stator-rotor combination, and varying in the stator at least one of a frequency of an electrical current and an electrical power to cause a continuous oscillation in time of the angular velocity of the anode around the mean angular velocity.