Noise reduction in sample and hold systems

The invention claimed is: 1. A sample and hold system, for capturing and reading a sequence of time domain traces of an input signal, the sample and hold system comprising: a readout device, a controller, and a sample and hold array of unit cells, wherein the controller is configured to control the sample and hold system such that during an acquisition phase a trace of samples is taken from the input signal in an original sample order and such that the samples are held in the unit cells wherein samples are assigned to different unit cells according to an acquisition order, and such that during a consecutive readout phase the samples are read out from the unit cells by the readout device wherein the order in which the unit cells are read out corresponds with a readout order, wherein the acquisition order and/or the readout order differs from trace to trace, and wherein the sample and hold system is configured to average or accumulate corresponding samples of the sequence of traces, wherein a sample of a first trace corresponds with a sample of a further trace when both samples are at the same position in the original sample order. 2. The sample and hold system according to claim 1 , wherein at least part of the readout order and/or part of the acquisition order is a predefined order. 3. The sample and hold system according to claim 1 , wherein at least part of the readout order and/or part of the acquisition order is a random order. 4. The sample and hold system according to claim 1 , wherein the controller is configured such that a first unit cell of the readout order and/or a first unit cell of the acquisition order is a random unit cell and such that the following unit cells in the readout order and/or in the acquisition order are consecutive unit cells in the array of unit cells. 5. The sample and hold system according to claim 1 , wherein the controller is configured such that the acquisition order and/or the readout order are grouped into subgroups wherein the order in which subgroups are sampled or readout differs from trace to trace and/or wherein the order wherein the unit cells within a subgroup are readout or sampled differs from trace to trace. 6. The sample and hold system according to claim 5 , wherein the unit cells are grouped into segments and wherein each subgroup of the acquisition order and/or of the readout order corresponds with a segment. 7. The sample and hold system according to claim 1 , wherein the controller is configured such that the random assignment is based on a pseudo random binary sequence. 8. The sample and hold system according to claim 1 , wherein the readout order is the same as the acquisition order. 9. The sample and hold system according to claim 1 , the sample and hold system comprising a decoder wherein the decoder is configured for reordering the readout samples in the original sample order taking into account the acquisition order and the readout order. 10. The sample and hold system according to claim 1 , wherein each unit cell comprises a capacitor and wherein the capacitors are configured for holding the samples. 11. The sample and hold system according to claim 1 , wherein each unit cell comprises a magnetic element and wherein the magnetic elements are configured for holding the samples. 12. The sample and hold system according claim 1 , wherein the array of unit cells is a two-dimensional array of unit cells. 13. An optical detector, the optical detector comprising: a sample and hold system for capturing and reading a sequence of time domain traces of an input signal; and at least one optical sensor, wherein the sample and hold system includes a readout device, a controller, and a sample and hold array of unit cells, wherein the controller is configured to control the sample and hold system such that during an acquisition phase a trace of samples is taken from the input signal in an original sample order and such that the samples are held in the unit cells wherein samples are assigned to different unit cells according to an acquisition order, and such that during a consecutive readout phase the samples are read out from the unit cells by the readout device wherein the order in which the unit cells are read out corresponds with a readout order, wherein the acquisition order and/or the readout order differs from trace to trace, wherein the sample and hold system is configured to average or accumulate corresponding samples of the sequence of traces, wherein a sample of a first trace corresponds with a sample of a further trace when both samples are at the same position in the original sample order, and wherein each optical sensor comprising an input for detecting an optical signal and an output for generating an output signal which is representative for the detected optical signal, wherein the output of the at least one optical sensor is the input signal of the sample and hold system. 14. A method for capturing and reading a sequence of traces of an input signal, the method comprising: capturing and reading out at least two traces of the input signal by at least two cycles of: an acquisition phase wherein samples are taken from the input signal and held in a unit cell of a sample and hold array of unit cells wherein the samples are assigned to the unit cells in an acquisition order, a readout phase wherein the samples in the unit cells are read out by a readout device wherein the order in which the unit cells are read out corresponds with a readout order, wherein the acquisition order and/or the readout order differs from trace to trace, and wherein the method further comprises averaging or accumulating corresponding samples of the sequence of traces, wherein a sample of a first trace corresponds with a sample of a further trace when both samples are at the same position in the original sample order.