PROBLEM TO BE SOLVED: To provide a photoacoustic imaging apparatus capable of controlling frequency characteristics of a detected photoacoustic wave so as to conform to a frequency bandwidth of a detection unit (ultrasonic probe) by a method other than a method in which a pulse width of a pulse light is controlled.SOLUTION: A photoacoustic imaging apparatus includes: a light source unit 11; a detection unit 12 for detecting an acoustic wave A generated from the inside of a subject P and attributed to the irradiation of light onto a subject P by the light source unit 11; and a light source drive unit 21 for supplying power to the light source unit 11 and driving the light source unit 11. The light source drive unit 21 sets a ratio of a rising inclination of a pulse waveform of the light irradiated from the light source unit 11 to a falling inclination thereof based on a detection frequency (frequency bandwidth) of the detection unit 12, and makes an absolute value of the ratio of the inclinations larger as the range of the detection frequency of the detection unit 12 is wider.SELECTED DRAWING: Figure 4【課題】パルス光のパルス幅を制御する以外の方法によって、検出部(超音波探触子)の周波数帯域に適合するように、検出される光音響波の周波数特性を制御することが可能な光音響画像化装置を提供する。【解決手段】光源部11と、光源部11により被検体Pに光が照射されることに起因して被検体P内から発生する音響波Aを検出する検出部12と、光源部11に電力を供給して光源部11を駆動させる光源駆動部21とを備え、光源駆動部21は、検出部12の検出周波数(周波数帯域)に基づいて、光源部11から照射される光のパルス波形の立ち上がりの傾きと立ち下がりの傾きとの比を設定するとともに、検出部12の検出周波数の範囲が広いほど、傾きの比の絶対値を大きくするように構成されている。【選択図】図4