Branching off fluidic sample with low influence on source flow path

What is claimed is: 1. A sample management device, comprising: a source flow path in which a fluidic sample can flow; a volume flow adjustment unit having a sensor and being configured to adjust a volume flow of the fluidic sample to be branched off from the source flow path; a fluidic valve fluidically coupled with the source flow path such that the fluidic valve forms a part of the source flow path, the fluidic valve being further fluidically coupled with the volume flow adjustment unit, wherein the fluidic valve is switchable into a branch off state to branch off an adjustable volume of the fluidic sample from the source flow path while a flow of the fluidic sample in the source flow path continues and while the fluidic valve continues to form a part of the source flow path; and a pressure determining unit configured for receiving a signal from the sensor and for determining from the signal a value of pressure in the source flow path when switching into the branch off state. 2. The sample management device according to claim 1 , wherein in the branch off state of the fluidic valve, a fluidic coupling point is established within the source flow path to branch off the adjustable volume of the fluidic sample from the source flow path via the fluidic coupling point while the flow of the fluidic sample in the source flow path continues. 3. The sample management device according to claim 2 , comprising at least one of the following features: wherein the fluidic valve is switchable into at least one other state in which no fluidic coupling point fluidically coupling the volume flow adjustment unit and the source flow path is established within the source flow path; wherein the fluidic coupling point is defined by a fluidic coupling position between the source flow path and a channel end point of a volume flow adjustment path including the volume flow adjustment unit; wherein the fluidic coupling point is located in an interior of the fluidic valve; wherein the fluidic coupling point corresponds to a fluid port; wherein the volume flow adjustment unit is operable so that the volume of the fluidic sample to be branched off from the source flow path flows via the fluidic coupling point into a sample accommodation volume. 4. The sample management device according to claim 2 , wherein the fluidic valve is configured so that, in the branch off state, the volume flow adjustment unit is fluidically coupled with the source flow path via the fluidic coupling point which has at least three fluid connections at least partially defined by the fluidic valve. 5. The sample management device according to claim 4 , comprising at least one of the following features: wherein, in the branch off state, two of the at least three fluid connections at the fluidic coupling point are fluidically coupled to or form part of the source flow path and another one of the at least three fluid connections is fluidically coupled to the volume flow adjustment unit; wherein the at least three fluid connections comprise two fluidic conduits of the fluidic valve fluidically coupled with one another in the branch off state. 6. The sample management device according to claim 1 , wherein the volume flow adjustment unit comprises an adjustment pump configured to adjust the volume flow of the fluidic sample to be branched off from the source flow path. 7. The sample management device according to claim 1 , comprising a destination flow path fluidically coupled with the fluidic valve, wherein the fluidic valve is switchable into a sample supply state in which the branched off fluidic sample is supplied into the destination flow path. 8. The sample management device according to claim 1 , wherein the source flow path comprises a sample separation apparatus for separating the fluidic sample in fractions. 9. The sample management device according to claim 8 , wherein the destination flow path comprises a further sample separation apparatus for further separating the fractions in sub-fractions. 10. The sample management device according to claim 1 , comprising a needle, a seat and an accommodation volume between the volume flow adjustment unit and the fluidic valve, wherein the needle is drivable selectively into the seat or out of the seat for transferring a substance between the accommodation volume and an external entity. 11. The sample management device according to claim 1 , wherein the fluidic valve is switchable into a pressure adjustment state in which the source flow path is fluidically decoupled from the volume flow adjustment unit and in which the volume flow adjustment unit is operable for adjusting a pressure between the volume flow adjustment unit and the fluidic valve to the determined value of pressure in the source flow path. 12. The sample management device according to claim 11 , wherein the volume flow adjustment unit is operable for adjusting the pressure in the pressure adjustment state to reduce a pressure difference with regard to another pressure in the source flow path prior to switching the fluidic valve in the branch off state. 13. The sample management device according to claim 1 , wherein the fluidic valve has: a source flow-in port through which the fluidic sample can be guided to flow from the source flow path into the fluidic valve; a source flow-out port through which branched off fluidic sample can flow away from the source flow path and not-branched off fluidic sample can remain flowing within the source flow path; a branch off port through which the branched off fluidic sample can flow to a sample accommodation volume in fluid communication with the volume flow adjustment unit. 14. The sample management device according to claim 13 , wherein, in the branch off state, the source flow-out port is equal to the fluidic coupling point. 15. The sample management device according to claim 1 , comprising at least one of the following features: wherein the fluidic valve is switchable into at least one other state in which the volume flow adjustment unit and the source flow path are fluidically decoupled from one another; wherein the source flow path has a flow-in port through which the fluidic sample flows into the source flow path and has a flow-out port through which the fluidic sample flows out of the source flow path; the sample management device is configured so that a flow of the fluidic sample in the source flow path continues substantially undisturbed in the branch off state; the sample management device is configured so that a flow of the fluidic sample in the source flow path continues uninterruptedly in the branch off state; wherein the source flow path is configured for closed-loop fluid processing; wherein the source flow path comprises a fluid reactor for subjecting the fluidic sample to a reaction. 16. A sample separation system for separating a fluidic sample, wherein the sample separation system comprises: a fluid drive configured to drive a mobile phase; a separation unit configured to separate the fluidic sample in the mobile phase; the sample management device according to claim 1 for branching off an adjusted volume the fluidic sample for injection between the fluid drive and the separation unit. 17. The sample management device according to claim 1 , wherein the fluidic valve is fluidically coupled with the source flow path such that the fluidic sample flows from the source flow path, through the fluidic valve, and back into the source flow path. 18. A method of managing a fluidic sample, the method comprising: providing the sample man