Quasi-optical beamformer with lens and plane antenna comprising such a beamformer

1 . A quasi-optical beamformer with lens comprising a radiofrequency transmission line fed at a first end, by at least one input feed source, the transmission line comprising two stacked metal plates, spaced apart and extending in two directions, longitudinal X and transverse Y, wherein the transmission line further comprises at least one protuberance extending in the directions X, Y, and in a direction Z orthogonal to the plane XY, the protuberance comprising a metal insert extending in the direction X, in the transverse direction Y between two lateral edges of the transmission line, and extending height-wise in the direction Z, the metal insert comprising a base fastened to one of the two metal plates and at least one free end and having, in longitudinal section, a contour of variable length between the two lateral edges of the transmission line, and wherein, in the protuberance, the transmission line is adjoining the metal insert and forms, in the direction Z, a circumvolution around the metal insert. 2 . The quasi-optical beamformer with lens according to claim 1 , wherein the free end of the metal insert is folded back parallel to the XY plane. 3 . The quasi-optical beamformer with lens according to claim 2 , wherein the free end of the metal insert is doubly folded back in a T shape, parallel to the XY plane. 4 . The quasi-optical beamformer with lens according to claim 1 , wherein the protuberance and the metal insert have profiles of curvilinear shapes in the directions X and Y. 5 . The quasi-optical beamformer with lens according to claim 4 , wherein the protuberance has an input profile and an output profile of different shapes. 6 . The quasi-optical beamformer with lens according to claim 1 , wherein the protuberance comprises matching stubs. 7 . The quasi-optical beamformer with lens according to claim 1 , wherein, in the protuberance, the metal plates of the transmission line have an internal face comprising staircase-like transitions. 8 . The quasi-optical beamformer with lens according to claim 1 , wherein the length of the contour, in longitudinal section, of the metal insert decreases progressively from the centre to the two lateral edges of the transmission line. 9 . The quasi-optical beamformer with lens according to claim 8 , wherein the metal insert comprises a symmetric profile with respect to a median longitudinal axis of the transmission line. 10 . The quasi-optical beamformer with lens according to claim 1 , wherein the length of the contour, in longitudinal section, of the metal insert increases progressively from the centre to the two lateral edges of the transmission line. 11 . The quasi-optical beamformer with lens according to claim 10 , wherein the metal insert comprises a symmetric profile with respect to a median longitudinal axis of the transmission line. 12 . The quasi-optical beamformer with lens according to claim 1 , wherein the transmission line comprises several input feed sources distributed periodically, around an input edge, according to a focal curve. 13 . The quasi-optical beamformer with lens according to claim 1 , wherein the transmission line comprises several protuberances able to produce progressive delays, the protuberances being distributed successively along the longitudinal axis X of the transmission line, at various distances from the input feed sources, each protuberance comprising a metal insert, the length of whose contour, in longitudinal section, varies between the two lateral edges of the transmission line. 14 . The quasi-optical beamformer with lens according to claim 13 , wherein the length of the contour of the metal inserts, in the various successive protuberances, varies progressively from one protuberance to another adjacent protuberance, in the longitudinal direction X of the transmission line. 15 . The quasi-optical beamformer with lens according to claim 1 , wherein the transmission line is folded back on itself in the direction X, according to a fold of straight shape. 16 . The quasi-optical beamformer with lens according to claim 1 , further comprising at least one first reflector wall extending transversely in the transmission line, and orthogonally to the metal plates in the direction Z, the first reflector wall being able to fold the transmission line, back on itself, in the direction X, according to a fold of curvilinear shape. 17 . The quasi-optical beamformer with lens according to claim 16 , comprising at least two stacked layers, respectively first and second layers, closed at one end by the first reflector wall and two opposite protuberances fashioned around a metal insert extending in the two stacked layers, the first reflector wall being integrated into the two opposite protuberances. 18 . The quasi-optical beamformer with lens according to claim 17 , further comprising a third layer stacked on the second layer and a second reflector wall extending in the second and third layers. 19 . The quasi-optical beamformer with lens according to claim 16 , further comprising at least one third protuberance fashioned in the second layer downstream of the first reflector wall. 20 . A plane antenna comprising at least one beamformer according to claim 1 and further comprising a linear radiating horn connected at output of the beamformer. 21 . The plane antenna comprising at least one beamformer according to claim 1 , wherein the transmission line is folded back, on itself, in the direction X, and further comprises a linear output aperture linked to an array of several radiating horns.