Valve for metering a fluid

What is claimed is: 1. A valve for metering a fluid, the valve comprising: a valve-seat face; an electromagnetic actuator including an armature, wherein the armature includes a plurality of through-flow channels, wherein each of through-flow channels opens with a corresponding one of a plurality of outlet openings at an end face of the armature; a valve needle on which the armature is movably supported and that is operable using the armature; a valve-closing member that is actuatable by the valve needle and that cooperates with the valve-seat face to form a sealing seat; a stop element that is mounted fixedly on the valve needle and that interacts with at least one outlet opening of at least one through-flow channel such that throttling takes place with respect to the least one through-flow channel when the armature is located with its end face at the stop element; and a further stop element, which has a further stop face, that is fixed with respect to the valve needle, wherein an internal-pole stop face is formed on an internal pole, wherein the internal-pole stop face of the internal pole and the further stop face of the further stop element face a further end face of the armature that faces away from the end face of the armature; wherein a stop face, which is of the stop element, faces the end face of the armature, and wherein the stop face includes a tapered section which tapers away from a longitudinal axis of the valve needle, so that a space between the armature and the stop element forms a wedge shape that increases outwardly, wherein the space between the armature and the stop element that forms the wedge-shape aids hydraulic movement of the armature to the stop element during operation, and wherein the stop element also has an outer side that faces away from the end face of the armature and is tapered at least in another section to form a tapered area on the outer side, wherein the stop element, which has the outer side that faces away from the end face of the armature, includes the tapered area in which a plurality of slots or bores are disposed, wherein the plurality of slots or bores is greater in number than the plurality of through-flow channels or the plurality of outlet openings, wherein the tapered section is covered by at least a portion of each of the through-flow channels, and wherein the plurality of slots or bores are bores formed on the stop element, and which are arranged to permit a restricted flow with respect to the at least one through-flow channel when the armature is located with the end face of the armature at the stop element. 2. The valve of claim 1 , wherein each of at least one of a plurality of through-flow channels is formed with an at least approximately round shaped through-flow cross-section. 3. The valve of claim 1 , wherein each of the at least one outlet openings is formed at least approximately as a round shaped outlet opening. 4. The valve of claim 1 , wherein the plurality of through-flow channels, and the plurality of outlet openings are uniformly distributed circumferentially about the longitudinal axis of the valve needle on the end face of the armature. 5. The valve of claim 1 , wherein the plurality of through-flow channels, and the plurality of outlet openings are disposed with a same radial distance to the longitudinal axis of the valve needle on the end face of the armature. 6. The valve of claim 1 , wherein the armature is surrounded by a liquid fluid. 7. The valve of claim 1 , wherein the slots formed on the stop element are arranged to permit a restricted flow with respect to the at least one through-flow channel when the armature is located with the end face of the armature at the stop element. 8. The valve of claim 7 , wherein the slots extend radially relative to the longitudinal axis of the valve needle. 9. The valve of claim 7 , wherein the slots are uniformly distributed circumferentially on the stop element. 10. The valve of claim 1 , wherein through-openings of the stop element are formed at least partially as bores. 11. The valve of claim 1 , wherein through-openings are uniformly distributed circumferentially on the stop element. 12. The valve of claim 1 , wherein the armature and the valve needle move further together in an opening direction until the armature strikes against the stop face of the stop element. 13. The valve of claim 1 , wherein the valve is a fuel injection valve for an internal combustion engine.