Heat exchanger

The invention claimed is: 1. A heat exchanger having a tube bundle, wherein the tube bundle comprises: (a) tubes arranged in a housing which each define a first flow channel for a first fluid, wherein the tubes can be flowed around by a second fluid and in this way define second flow channels for the second fluid, or (b) tube elements stacked in an alternating manner to form tubes alternately defining first flow channels for a first fluid and second flow channels for a second fluid; and wherein the first flow channels are configured to be open on an end side to permit inflow or outflow of the first fluid, wherein a diffuser is connected to the housing or to the tube bundle on the end side of the first flow channels, wherein the diffuser comprises a collar having a wall thickness and formed as a plug-over region configured to be pushed over a region of the housing at the end side or over a region of the tube bundle at the end side, wherein a length of the plug-over region is at least three times the wall thickness of the plug-over region of the diffuser, a thickness of a housing wall contacting the plug-over region, or a thickness of a tube bundle wall contacting the plug-over region, and wherein the plug-over region comprises a slotted or wedge-shaped notch arranged in at least one corner region of the plug-over region. 2. The heat exchanger according to claim 1 , wherein the length of the plug-over region is from 5 times up to 20 times the thickness of the plug-over region of the diffuser, a thickness of a housing wall contacting the plug over region, or a thickness of a tube bundle wall contacting the plug over region. 3. The heat exchanger according to claim 1 further comprising a connector stub having a collar, wherein the collar is connected to the housing or to the tube bundle so as to overlap with the plug-over region of the diffuser such that the collar engages over the plug-over region or the plug-over region engages over the collar. 4. The heat exchanger according to claim 3 , wherein the plug-over region engages over the collar. 5. The heat exchanger according to claim 1 , wherein the tube bundle is formed from a plurality of stacked plates or plate pairs which form the first and second flow channels in an alternating manner between themselves. 6. The heat exchanger according to claim 5 , wherein the first flow channels are configured as open on the end side and the second flow channels are configured as closed on the end side. 7. The heat exchanger according to claim 1 , wherein the tube bundle is configured in accordance with option (a). 8. The heat exchanger according to claim 7 , wherein the tubes comprise longitudinal beads at their edges which seal the second flow channel against the outside. 9. The heat exchanger according to claim 7 , wherein the tubes comprise an end region having a step-like widened portion or constriction such that the first or second flow channels are closed in the end region. 10. The heat exchanger according to claim 9 , wherein the housing does not seal the second flow channel against the outside. 11. A heat exchanger having a tube bundle, wherein the tube bundle comprises: (a) tubes arranged in a housing which each define a first flow channel for a first fluid, wherein the tubes can be flowed around by a second fluid and in this way define second flow channels for the second fluid, or (b) tube elements stacked in an alternating manner to form tubes alternately defining first flow channels for a first fluid and second flow channels for the second fluid; and wherein the first flow channels are configured to be open on an end side to permit inflow or outflow of the first fluid, wherein a diffuser is connected to the housing or to the tube bundle on the end side of the first flow channels, wherein the diffuser comprises a collar having a wall thickness and formed as a plug-over region configured to be pushed over a region of the housing at the end side or over a region of the tube bundle at the end side, wherein a length of the plug-over region is at least three times the wall thickness of the plug-over region of the diffuser, a thickness of a housing wall contacting the plug-over region, or a thickness of a tube bundle wall contacting the plug-over region, wherein the plug-over region comprises a slotted or wedge-shaped notch arranged in at least one corner region of the plug-over region, and further comprising a connector stub having a collar, wherein the collar is connected to the housing or to the tube bundle so as to overlap with the plug-over region of the diffuser such that the plug-over region engages over the collar.