Noninvasive technology for measuring instantaneously two-dimensional(2D) temperature distributions of flame using two-color planar laser induced fluorescence(PLIF) of OH is investigated.A calibration method is researched and developed.This method is based on the calibration experiments with a laminar premixed flame and thermocouple,and avoids complex calculation and uncertainty of the spectrum parameters.Measurements for a flat burner at ambient temperature under atmospheric pressure are also presented;calibration results are used to diagnose a supersonic combustion in scramjet combustor.The conclusion indicates that this method is useful,and a better precision of calibration can be acquired by correcting the line shapes of the spectral lines and lasers. Noninvasive technology for measuring instantaneously two-dimensional (2D) temperature distributions of flame using two-color planar laser induced fluorescence (PLIF) of OH is investigated. A calibration method is researched and developed. This method is based on the calibration experiments with a laminar premixed flame and thermocouple, and avoids complex calculation and uncertainty of the spectrum parameters. Measurements for a flat burner at ambient temperature under atmospheric pressure are also presented; calibration results are used to diagnose a supersonic combustion in scramjet combustor. is useful, and a better precision of calibration can be acquired by correcting the line shapes of the spectral lines and lasers.