Space vehicle, launcher and stack of space vehicles

The invention claimed is: 1. A spacecraft, comprising: a support structure having two base walls arranged parallel to and at a distance from one another and at least three flat side walls fixed to the base walls, at least one main communication antenna comprising: at least one radiating element carried by at least one flat side wall, said at least one radiating element having a central axis of radiation (AC-AC), said at least one radiating element is configured to emit or receive radiofrequency waves, a movable arm able to move between a deployed position and a folded position, a reflector carried by the movable arm, said reflector is configured for reflecting or receiving radiofrequency waves in a direction of emission (DE), when the movable arm is in the deployed position, wherein said at least one radiating element is fastened to the at least one side wall so that the central axis of radiation (AC-AC) of the radiating element is perpendicular to said at least one side wall carrying said at least one radiating element, and in that the movable arm is shaped so that an offset angle (β) of between 25° and 65° is formed between said at least one side wall carrying said at least one radiating element and the direction of emission (DE), when the movable arm is in the deployed position. 2. The spacecraft according to claim 1 , wherein the offset angle (β) is between 35° and 55°. 3. The spacecraft to claim 2 , wherein the offset angle (β) is equal to 45°. 4. The spacecraft according to claim 1 , wherein two adjacent flat side walls directly attached to each other each carry at least one radiating element having a central axis of radiation (AC-AC) perpendicular to the side wall which carries them. 5. The spacecraft according to claim 1 , wherein the support structure comprises four flat side walls fixed perpendicularly to each other so as to present a square cross-section in a section plane which extends parallel to the base wall, and wherein a diagonal (D) connecting two opposite corners of said square cross-section extends along the direction of emission (DE) of the reflector, when the movable arm is in a deployed position. 6. The spacecraft according to claim 1 , further comprising at least one main radiator carried by the base wall and a heat transfer device comprising at least one L-shaped device for transporting heat by fluid, said device for transporting heat having a first rectilinear portion in direct thermal contact with the base wall carrying the main radiator, a single bent portion, and a second rectilinear portion in direct thermal contact with said at least one radiating element and the flat side wall carrying said at least one radiating element. 7. The spacecraft according to claim 6 , wherein said flat side wall carrying said at least one radiating element comprises at least one lateral cutout, and wherein said bent portion of the device for transporting heat is engaged in said lateral cutout, the second rectilinear portion extending over an outer face of said flat side wall carrying said at least one radiating element. 8. The spacecraft according to claim 1 , comprising at least one electronic amplification component suitable for amplifying electrical signals transmitted to said at least one radiating element, and a housing comprising said at least one radiating element and said at least one electronic amplification component. 9. The spacecraft according to claim 1 , further comprising at least one main radiator carried by the base wall and at least one auxiliary radiator mounted to pivot between a folded position in which the auxiliary radiator is arranged parallel to and adjacent to the main radiator, and an unfolded position in which the auxiliary radiator extends substantially as an extension of the main radiator. 10. The spacecraft according to claim 9 , wherein said at least one auxiliary radiator has the shape of a triangle. 11. The spacecraft according to claim 10 , wherein one of the vertices of the triangle is truncated and defines an edge mounted to pivot relative to the main radiator. 12. The spacecraft according to claim 1 , further comprising at least one main radiator carried by a base wall, and wherein said at least one main radiator comprises at least three corners and wherein at least one corner of the main radiator is truncated along a section plane parallel to the direction of emission (DE). 13. The spacecraft to claim 1 , wherein the support structure comprises: four posts extending in a direction perpendicular to the base walls, said posts are distributed at the vertices of a parallelogram, and a reinforcing structure rigidly connecting the four posts to a same center. 14. The spacecraft to claim 1 , wherein the support structure has a polygonal cross-section in a section plane parallel to a plane of the base wall carrying a main radiator, said polygonal cross-section is chosen from the following group: a triangular cross-section, a rectangular cross-section, a square cross-section, a trapezoidal cross-section, a pentagonal cross-section, a hexagonal cross section. 15. A launcher, comprising a fairing and at least one spacecraft according to claim 1 under the fairing and comprising at least one main radiator carried by a base wall, said main radiator is arranged perpendicularly to the direction of launch (AL). 16. A stack of multiple spacecraft according to claim 13 , comprising at least two spacecraft arranged one on top of another, each post of a first spacecraft is carried by a post of the second spacecraft, the posts of each spacecraft extending in the same direction. 17. The spacecraft of claim 1 , wherein said reflector is configured for directly reflecting or receiving radiofrequency waves in a direction of emission (DE).