Removal of hard tissue with Er,Cr:YSGG laser has been extensively researched, however, removal of root substances such as microbial deposits and calculus by Er,Cr:YSGG laser has not clearly been demonstrated. The purpose of this in vitro study was to investigate the effects of Er,Cr:YSGG laser on root surfaces at different parameter settings using scanning electron microscopy (SEM), and to analyze the thermal changes of the root canals during the laser irradiation at different settings with thermometer. Caries-free, no obvious damage of root surfaces, extracted in three months human teeth were sectioned. This study was divided in to three parts. Part I: Specimens were categorized into groups related to laser power (0.5W, 0.75W, and 1.0W), water output (20%, 40%, and 60%),and air output (10%, 30%, and 50%). Part II: Specimens were irradiated with different irradiation angle(90°, 60°, 30°,and 10°) at the parameter of 0.75W, 40% water, and 30% air. The Er,Cr:YSGG laser irradiation was set for 2 seconds in noncontact mode while the tip was held perpendicularly to the root surface side of the specimens. The distance between the laser tip and surfaces of the specimens was set to be 1.5mm. After laser irradiation, all specimens were evaluated using a SEM. Part III: Five specimens were selected and performed root canals preparation. K-type thermal couple was inserted into the root canals of the specimens to detect the changes of temperatures inside the root canals. The root canal walls were 1.5~2mm in thickness at the eight irradiation sites of each specimens. Laser irradiation was performed perpendicularly on the surfaces of the root specimens in different setting of power levels (0.5W, 0.75W, 1.0W, 1.5W), water volumes(10%, 40%, 90%), and air output(10%, 30% ,90%) for 120 seconds while the laser tip was 1.5mm away from the specimens. Thermal changes were monitored by thermometer. The results revealed: Part I: As the output power and air volumes increased, the irradiated areas were affected with increased crater area and depth, while the higher values of the water spray could have opposite results. Part II: The smaller irradiation angles could be resulted in wider irradiation area and no clear ablation. Part III: The thermal changes were elevated within the physiologically tolerable levels of pulp tissue irradiated with the utilized laser parameters. Conclusion: The Er,Cr:YSGG laser treatment may be a safe way without disturbing the structure of root surface under proper settings of parameter. The pulp tissue will not be damaged from heat generated by laser application in utilized setting of energy, water, and air output in this study.