Determining a fill level and topology

1 . An antenna apparatus for a fill level measurement device, comprising: an antenna configured to emit a measurement signal towards a filling material surface and to receive a reflected measurement signal reflected by the filling material surface; and a motor configured to rotate the antenna about an axis of rotation, wherein the antenna comprises an array configured to emit the emitted measurement signal and to receive the reflected measurement signal; and wherein the array comprises a plurality of radiator elements that are arranged in a plane which, together with an axis of rotation, forms an angle α that does not equal 90 degrees. 2 . The antenna apparatus according to claim 1 , wherein the angle α is 45 degrees. 3 . The antenna apparatus according to claim 1 , wherein the array is a unidimensional array having a single row of radiator elements, and wherein the single row of radiator elements extends in a longitudinal direction of the antenna. 4 . The antenna apparatus according to claim 1 , wherein the array is a two-dimensional array having a plurality of rows arranged in parallel with one another and a plurality of columns of radiator elements arranged perpendicularly to said plurality of rows; wherein the plurality of rows extend in a longitudinal direction of the antenna and the plurality of columns extend in a transverse direction of the antenna, and wherein the radiator elements of the plurality of radiator elements in each column of the plurality of columns are conductively interconnected. 5 . The antenna apparatus according to claim 1 , further comprising: an elongate focussing arrangement configured to focus the emitted measurement signal and/or the reflected measurement signal. 6 . The antenna apparatus according to claim 5 , wherein the elongate focussing arrangement comprises a dielectric cylindrical lens having a longitudinal axis that is parallel to a longitudinal direction of the antenna. 7 . The antenna apparatus according to claim 5 , wherein the elongate focussing arrangement comprises a parabolic trough as a main reflector, and a counter reflector arranged at a spacing therefrom, and wherein the array is further configured to emit the measurement signal towards the counter reflector and is arranged either on or near to a surface of the parabolic trough. 8 . The antenna apparatus according to claim 1 , further comprising: a high-frequency signal generator configured to generate the measurement signal, wherein the high-frequency signal generator is integrated in the antenna. 9 . The antenna apparatus according to claim 1 , further comprising: an electronic evaluation system configured to rotate together with the antenna when the antenna is rotated by the motor. 10 . The antenna apparatus according to claim 9 , wherein the electronic evaluation system is integrated in the antenna or in the motor. 11 . A fill level measurement device comprising an antenna apparatus according to claim 1 . 12 . The fill level measurement device according to claim 11 , the device being further configured to determine a viscosity of a moving liquid. 13 . The fill level measurement device according to claim 11 , the device being further configured to determine a mass flow rate of a bulk material on a conveyor belt. 14 . A method for determining a topology of a surface of a filling material or a surface of a bulk material, comprising: rotating an antenna unit about an axis of rotation, the antenna comprising an array of a plurality of radiator elements; emitting, by the antenna, a measurement signal towards and/or receiving reflected a measurement signal from the surface of the filling material or the surface of the bulk material; receiving, by the antenna, the reflected measurement signal reflected by the surface of the filling material or the surface of the bulk material; and calculating the topology of the surface of the filling material or the surface of the bulk material from the received measurement signal, wherein the plurality of radiator elements are arranged in a plane which, together with an axis of rotation, forms an angle α that does not equal 90 degrees. 15 . The method according to claim 14 , further comprising: focussing, by an elongate focussing arrangement, the emitted measurement signal and/or the reflected measurement signal. 16 . The antenna apparatus according to claim 1 , further comprising: an elongate focussing arrangement configured to focus the emitted measurement signal and/or the reflected measurement signal, wherein the array is a unidimensional array having a single row of radiator elements, and wherein the single row of radiator elements extends in a longitudinal direction of the antenna. 17 . The antenna apparatus according to claim 1 , further comprising: an elongate focussing arrangement configured to focus the emitted measurement signal and/or the reflected measurement signal, wherein the array is a two-dimensional array having a plurality of rows arranged in parallel with one another and a plurality of columns of radiator elements arranged perpendicularly to said plurality of rows, wherein the plurality of rows extend in a longitudinal direction of the antenna and the plurality of columns extend in a transverse direction of the antenna, and wherein the radiator elements of the plurality of radiator elements in each column of the plurality of columns are conductively interconnected.