Waveguide gasket

The invention claimed is: 1. A waveguide gasket configured to electrically seal a waveguide interface between a first contact end and second contact end of the waveguide gasket, wherein the waveguide gasket comprises a plurality of individual electrically conducting members that are positioned along a circumference along which the waveguide gasket extends, each electrically conducting member having a first end and a second end compressibly separable by a variable first height along a first direction, the variable first height being equal to, or falling below, a maximum first height, wherein each first end faces the first contact end and each second end faces the second contact end, wherein the electrically conducting members are strung on a common holding member or interconnected between first and second rigid frames respectively forming the first and second contact ends, wherein each first contact end and each second contact end are separated by a variable second height along the first direction, and wherein at least one of the electrically conducting members is arranged to expand only along said circumference when compressed, such that an expansion of the waveguide gasket in a direction towards a gasket opening that is defined and surrounded by the electrically conducting members is avoided. 2. The waveguide gasket of claim 1 , wherein at least one electrically conducting member is arranged to expand during compression only towards at least one other adjacent electrically conducting member. 3. The waveguide gasket of claim 1 , wherein at least one electrically conducting member is formed such that compression of the electrically conducting member causes it to partially overlap with at least one other adjacent electrically conducting member. 4. The waveguide gasket of claim 1 , wherein the maximum first height exceeds a first distance defining a length of a space between adjacent electrically conducting members along a second direction perpendicular to the first direction when the variable first height equals the maximum first height. 5. The waveguide gasket of claim 1 , wherein the first height is equal to the second height. 6. The waveguide gasket of claim 5 , wherein the electrically conducting members are formed by discrete elements that each comprise at least one inclination section, each inclination section being arranged to move towards at least one other adjacent electrically conducting member when the first height decreases. 7. The waveguide gasket of claim 6 , wherein each inclination section is connected to at least two opposing sections, wherein the opposing sections are arranged to be folded towards each other when the first height decreases. 8. The waveguide gasket of claim 1 , wherein the electrically conducting members each comprise at least one inclination section, each inclination section being arranged to move towards at least one other adjacent electrically conducting member when the first height decreases. 9. The waveguide gasket of claim 8 , wherein each inclination section is connected to at least two opposing sections, wherein the opposing sections are arranged to be folded towards each other when the first height decreases. 10. A waveguide section having a waveguide opening and comprising, arranged along a circumference of the waveguide opening, a waveguide gasket configured to electrically seal a waveguide interface between a first contact end and second contact end of the waveguide gasket, wherein the waveguide gasket comprises a plurality of individual electrically conducting members that are positioned along said circumference, each electrically conducting member having a first end and a second end compressibly separable by a variable first height along a first direction, the variable first height being equal to, or falling below, a maximum first height, wherein each first end faces the first contact end and each second end faces the second contact end, wherein the electrically conducting members are strung on a common holding member or interconnected between first and second rigid frames respectively forming the first and second contact ends, wherein each first contact end and each second contact end are separated by a variable second height along the first direction, and wherein at least one electrically conducting member is arranged to expand only along said circumference when compressed, such that an expansion of the waveguide gasket in a direction towards a gasket opening that is defined and surrounded by the electrically conducting members is avoided.