Jitter-calibrated second-order correlation measurement of low-repetition-rate pulsed excitation

Abstract

We report a new technique for the realization of second-order correlation (g2(τ)) measurement under low-repetition-rate pulsed excitation (1 kHz), with timing jitter calibrated to restore lateral g2(τ) curves and determine g2(0). We use CdSe nanowire (NW) laser to demonstrate the jitter-calibrated g2(τ) measurement, where g2(0) evolution shows the laser emission transition process. The exciting pulses are split into reference and excitation channels, which enables the jitter calibration when the exciting pulses have significant timing jitter and low repetition rate. After using the reference signals to calibrate and rearrange the single-photon signals, lateral g2(τ) curves can be entirely restored, and g2(0) evolution is demonstrated from our method.