Laser positioning and processing method and system having an advantage of non-invasive type and capable of precisely positioning to accurately implement diagnosis and treatment processing
This invention relates to a laser positioning and processing method, comprising the following steps: an optical tomography imaging equipment performing imaging to a sample to generate a scanned image signal to a control host when the control host is in an imaging mode, receiving the scanned image signal and controlling a display device to display a two dimensional or a three dimensional image relative to the sample when the control host is in a processing mode, having an input device to receive operation for generating a plane coordinate command and a trigger command according to the two dimensional or the three dimensional image and send the commands to the control host the control host performing alignment of a specified position of the sample according to the plane coordinate command and generates a control voltage according to the trigger command, so as to control the laser processing equipment to emit a laser pulse generated according to the control voltage to the specific position.一種雷射定位處置方法,包含以下步驟:一光學斷層掃描造影設備對一樣本進行造影以產生一掃描影像信號予一控制主機。控制主機於一造影模式時,係接收該掃描影像信號並控制一顯示裝置顯示一相關於該樣本的二維/三維畫面。控制主機於一處置模式時,一輸入裝置接受操作以供依據該二維/三維畫面產生一具有一平面座標指令及一觸發指令予該控制主機。控制主機依據該平面座標指令進行該樣本的一指定位置之對位,並依據該觸發指令產生一控制電壓,以控制該雷射處置設備對於該特定位置發出一依據該控制電壓產生的雷射脈衝。1‧‧‧光學斷層掃描造影設備10‧‧‧光纖耦合器100‧‧‧雷射定位處置系統11‧‧‧光源模組111‧‧‧超發光二極體112‧‧‧隔離器12‧‧‧參考臂121‧‧‧色散補償器122‧‧‧單模光纖13‧‧‧樣品臂131‧‧‧掃描器132‧‧‧接物鏡14‧‧‧光譜儀141‧‧‧穿透式繞射光柵142‧‧‧透鏡143‧‧‧線性掃描相機2‧‧‧雷射處置設備3‧‧‧切換單元51‧‧‧控制主機52‧‧‧顯示裝置53‧‧‧輸入裝置6‧‧‧樣本
