Damping system of a two-track vehicle

What is claimed is: 1. A damping system of a two-track vehicle, comprising: a passive anti-roll bar having a torsion bar extending in a vehicle transverse direction and having lever elements adjoining said torsion bar on end sides thereof, the lever elements being connected to mutually opposite wheel suspension systems of an axle of the vehicle; two actuators mounted on a body of the vehicle, each of said actuators being assigned to a respective wheel of a wheel suspension system and having in each case one drive via which a torque is appliable to a section of the anti-roll bar facing the respective wheel, wherein the two actuators are electric motors and are configured, by way of suitable regulation of their respective drives and therefore also by way of active introduction of forces, to damp vertical vibrations of the respective wheel and/or vibrations of the vehicle body in a frequency range between 0 Hz and at least 20 Hz, and the torsion bar comprises a first plurality of individual bars which lie within the actuators and comprise a material with a higher strength and a lower diameter than a second plurality of individual bars which lie outside the actuators. 2. The damping system as claimed in claim 1 , further comprising: hydraulic vibration dampers connected in parallel to the actuators one of said hydraulic vibration dampers being provided in each of said wheel suspension systems, wherein the actuators are designed, by way of suitable regulation of the drives in interaction with the suitably designed hydraulic vibration dampers, to damp the vertical vibrations of the respective wheel and/or vibrations of the vehicle body in a frequency range up to an order of magnitude of 30 Hz. 3. The damping system as claimed in claim 1 , wherein the regulation of the drive of the actuator is designed in a two-axle vehicle to reduce an influence of vehicle body movements of travel, roll, pitch and/or yaw. 4. The damping system as claimed in claim 1 , wherein the first or second plurality of individual bars are arranged in series and are connected to one another fixedly so as to rotate together, and the anti-roll bar comprises the torsion bar and the lever elements which are connected fixedly to the torsion bar on end sides. 5. The damping system as claimed in claim 1 , wherein regulation of the drives of the actuators also allows for generation of electric energy by way of generator operation of the electric motors. 6. A method for operating a damping system of a two-track vehicle as claimed in claim 1 , wherein the method comprises the steps of: regulating the drives of the actuators; and dampening vertical vibrations of the respective wheels and/or vibrations of the vehicle body in a frequency range between 0 Hz and at least 20 Hz based upon the regulation of the respective drives. 7. The damping system as claimed in claim 1 , wherein each of said actuators comprises a hollow shaft arrangement, to which a torque can be transmitted via a rotor, arranged coaxially with respect thereto, of the drive or actuator, and through which the hollow shaft arrangement the torsion bar of the anti-roll bar runs which is connected via a connection fixedly to the hollow shaft arrangement so as to rotate with it. 8. The damping system as claimed in claim 7 , wherein a gear mechanism, a clutch and/or a brake are provided in the hollow shaft arrangement between the drive and said connection. 9. The damping system as claimed in claim 1 , further comprising: a superordinate vehicle vertical dynamic regulator which, with regard to a desired reduction of vibrations of the vehicle body, determines a setpoint torque or a setpoint force for the drives of the actuators, from which a force/torque regulator determines an electric setpoint current which a current regulator sets at the drives of the actuators. 10. The damping system as claimed in claim 9 , wherein the force/torque regulator has a sampling rate of at least 1 kHz and/or the current regulator has a sampling rate of at least 10 kHz. 11. The damping system as claimed in claim 10 , wherein the sampling rate of the force/torque regulator is at least 2 kHz and/or the sampling rate of the current regulator is at least 20 kHz. 12. A damping system of a two-track vehicle, comprising: a passive anti-roll bar having a torsion bar extending in a vehicle transverse direction and having lever elements adjoining said torsion bar on end sides thereof, the lever elements being connected to mutually opposite wheel suspension systems of an axle of the vehicle; two actuators mounted on a body of the vehicle, each of the actuators being assigned to a respective wheel and having in each case one drive via which a torque is applicable to a section of the anti-roll bar facing the respective wheel, wherein the two actuators are electric motors and are configured, by way of suitable regulation of the respective drives and therefore also by way of active introduction of forces, to damp vertical vibrations of the respective wheel and/or vibrations of the vehicle body in a frequency range between 0 Hz and at least 20 Hz, and the torsion bar comprises one or more first individual bars which lie within the actuators and comprise a material with a higher strength and a lower diameter than one or more second individual bars which lie outside the actuators.