Flow reduction system for isotope ratio measurements

The invention claimed is: 1. A system for controlling gas flow in a continuous flow isotope ratio analyzer, comprising a measuring cell having an inlet and an outlet for respectively receiving and releasing a gas flow; a gas inlet line, fluidly connected to the inlet; a gas outlet line, fluidly connected to the outlet; and at least one switchable flow restriction on the gas inlet line, for selectively controlling gas flow into the isotope ratio analyzer; wherein the switchable flow restriction is provided by a bypass gas line that is connected to the gas inlet line at a first bypass junction and a second bypass junction, and a flow restriction that is arranged on the gas inlet line, between the first and second bypass junction; and wherein the system further comprises at least one valve for controlling gas flow in the bypass gas line and/or the gas inlet line having at least first and second valve positions wherein in a first position, gas is directed to flow through the bypass line and the isotope ratio analyser at a first non-zero flow rate and wherein in a second position, gas is directed to flow through the flow restriction on the gas inlet line and into the isotope ratio analyser at a second non-zero flow rate different to the first non-zero flow rate. 2. The system of claim 1 , wherein the second non-zero flow rate is lower than the first non-zero flow rate. 3. The system of claim 2 , wherein the flow restriction is provided by a fixed flow restriction, a mass flow controller or a proportional valve. 4. The system of claim 1 , further comprising at least one valve for controlling gas flow in the bypass gas line and/or the gas inlet line. 5. The system of claim 4 , wherein the at least one valve comprises a valve arranged between the first and the second bypass junction along the bypass gas line, the valve having a first position in which gas is able to flow between the first and second bypass junction along the bypass gas line, and a second position in which gas is prevented from flowing between the first and second bypass junction along the bypass gas line. 6. The system of claim 4 , wherein the at least one valve comprises a switching valve located at, or in fluid communication with, the first bypass junction, the switching valve having a first position in which gas is able to flow between the first and second bypass junction along the bypass gas line and in which gas is prevented from flowing between the first and second bypass junction along the gas inlet line, and a second position in which gas is able to flow between the first and second bypass junction along the gas inlet line and in which gas is prevented from flowing between the first and second bypass junction along the bypass gas line. 7. The system of claim 1 , wherein the at least one switchable flow restriction is provided as a plurality of flow restrictions on the gas inlet line that are provided in a parallel arrangement. 8. The system of claim 7 , wherein the plurality of restrictions is provided as a plurality of restriction lines, wherein each of the restriction lines comprises at least one flow restriction, wherein the plurality of restriction lines merge at a first restriction line junction, downstream from the first bypass junction, and wherein the plurality of restriction lines merge at a second restriction line junction, upstream from the second bypass junction. 9. The system of claim 1 , further comprising an analyte gas inlet line and a carrier gas inlet line that merge at a mixing junction wherein the analyte gas and the carrier gas are combined, and wherein the mixing junction is fluidly connected to the gas inlet line. 10. The system of claim 4 , further comprising a controller for controlling valve position of at least one of the valves. 11. The system of claim 10 , wherein the controller is adapted to receive an input about at least one measuring cell parameter, and wherein the controller is able to adjust the position of at least one of the valves based on the at least one measuring cell parameter, wherein the at least one measuring cell parameter is selected from gas concentration in the measuring cell, isotope ratio determination of a gas in the measuring cell, and gas pressure in the measuring cell. 12. The system of claim 10 , wherein the controller is configured to control the valve position of at least one of the valves so that in a first position gas is directed to flow through the bypass line and into the isotope ratio analyzer at a first flow rate during flushing and/or filling of the isotope ratio analyzer and so that in a second position gas is directed to flow through the flow restriction and into the isotope ratio analyzer at a second flow rate during a measurement of analyte gas in the isotope ratio analyzer, the second flow rate being lower than the first flow rate. 13. The system of claim 1 , wherein the measuring cell is a laser cell of an isotope ratio optical spectrometer. 14. The system of claim 1 , wherein a vacuum pump is fluidly connected to the gas outlet line. 15. The system of claim 1 , further comprising a pressure sensor operatively connected to the measuring cell, for determining pressure within the measuring cell. 16. The system of claim 14 , wherein the vacuum pump and/or the adjustable valve is adapted to be controlled in response to a signal from the pressure sensor, optionally to maintain a constant pressure in the measuring cell. 17. The system of claim 14 , further comprising at least one gas ballast arranged on the gas outlet line, between the measuring cell and the vacuum pump. 18. The system of claim 17 , wherein the gas ballast is provided as (i) a capillary that is fluidly connected to the gas outlet line and that is open to atmosphere, and wherein gas flow through the capillary is regulated by its length and inner diameter, (ii) an orifice on the gas outlet line, or (iii) a capillary that is fluidly connected to the gas outlet line, and an adjustable valve arranged on, or in fluid communication with, the capillary, for regulating gas flow in the capillary. 19. The system of claim 1 , further comprising a controller configured to control the switchable flow restriction such that during a first period the gas flows into the measuring cell at a first non-zero flow rate, and during a second period the gas flows into the measuring cell at a second non-zero flow rate that is lower than the first flow rate, wherein during at least a part of the first period the cell is flushed and/or filled with analyte gas, and wherein during at least a part of the second period the analyte gas in the cell is measured to determine an isotope ratio of the analyte gas. 20. A method of determining an isotope ratio of an analyte gas in a continuous flow isotope ratio spectrometer, comprising: providing a gas flow comprising an analyte gas into a measuring cell for isotope ratio determination at a first flow rate; reducing the gas flow into the measuring cell so as to achieve a second flow rate; and determining the isotope ratio in the analyte; wherein the ratio of the first to the second flow rate is in the range of 2:1 to 20:1. 21. The method of claim 20 , wherein the gas flow into the measuring cell at the first flow rate occurs for a first period, wherein during at least a part of the first period the cell is flushed and/or filled with the analyte gas, and wherein the gas flow into the measuring cell at the second flow rate occurs for a second period, wherein during at least a part of the second per