Electro-optic mach-zehnder modulator and method for fabricating an electro-optic mach-zehnder modulator

The invention claimed is: 1. An electro-optic Mach-Zehnder modulator, comprising a first optical waveguide forming a first arm of the Mach-Zehnder modulator; a second optical waveguide forming a second arm of the Mach-Zehnder modulator, wherein the first and/or the second optical waveguide comprises a plurality of capacitative segments spaced apart from one another, the capacitive segments each forming an electrical capacitor; and a travelling wave electrode arrangement for applying a voltage across the first and/or the second optical waveguide, the travelling wave electrode arrangement comprising a plurality of waveguide electrodes arranged on the capacitive segments at least one electrical line extending at least partially along a part of the first and/or the second optical waveguide, the electrical line being arranged in a distance from the waveguide electrodes; and a plurality of connecting arrangements, wherein a connecting arrangements is assigned to each of the waveguide electrodes, the connecting arrangements each comprise a single wide connecting structure having a width that equals the length of the assigned waveguide electrode, wherein the width of the wide connecting structure and the length of the waveguide electrode are measured along the first and/or the second optical waveguide, and wherein the waveguide electrodes each are electrically connected to the electrical line via the assigned single wide connecting structure, wherein the plurality of wide connecting structures is formed by a continuous contact structure extending along the first and/or the second optical waveguide, wherein the wide connecting structures are formed by portions of the continuous contact structure. 2. The Mach-Zehnder modulator as claimed in claim 1 , wherein the capacitive seg-ments comprise at least one p-doped layer, wherein the p-doped layer is removed between adjacent capacitive segments such that passive waveguide segments are formed, and wherein the continuous contact structure extends over both the capaci-tive segments and the passive waveguide segments. 3. Method of fabricating an electro-optic Mach-Zehnder modulator as claimed in claim 1 , comprising the steps of providing a first optical waveguide forming a first arm of the Mach-Zehnder modulator; providing a second optical waveguide forming a second arm of the Mach-Zehnder modulator; forming a plurality of capacitive segments of the first and/or the second optical waveguide, the capacitive segments being spaced apart from one another and each forming an electrical capacitor; and providing a travelling wave electrode arrangement for applying a voltage across the first and/or the second optical waveguide, comprising arranging a plurality of waveguide electrodes on the capacitive seg-ments; forming at least one electrical line extending along at least a part of the first and/or the second optical waveguide, the electrical line being arranged in a distance from the waveguide electrodes, forming a single wide connecting structure for each one of the wave-guide electrodes in such a way that the waveguide electrodes are electrically connected to the electrical line via the single wide connecting structure, respec-tively, wherein the width of the wide connecting structure is chosen to equal the length of the assigned waveguide electrode, the width of the wide connecting structure and the length of the waveguide electrode being measured along the first and/or the second optical waveguide, wherein the plurality of wide connect-ing structures is formed by forming a continuous contact structure extending along the first and/or the second optical waveguide in such a way that the wide connecting structures are formed by portions of the continuous contact struc-ture.