...
机译:动态兼容的悬臂可最大程度地降低尖端样品力并增强原子力显微镜的灵敏度
Department of Precision and Microsystem Engineering, Delft University of Technology, Mekelweg 2,2628CD Delft, The Netherlands,Netherlands Organization for Applied Scientific Research, TNO, Delft, The Netherlands;
Netherlands Organization for Applied Scientific Research, TNO, Delft, The Netherlands;
Department of Precision and Microsystem Engineering, Delft University of Technology, Mekelweg 2,2628CD Delft, The Netherlands,Netherlands Organization for Applied Scientific Research, TNO, Delft, The Netherlands;
Department of Precision and Microsystem Engineering, Delft University of Technology, Mekelweg 2,2628CD Delft, The Netherlands;
Department of Precision and Microsystem Engineering, Delft University of Technology, Mekelweg 2,2628CD Delft, The Netherlands;
机译:在高阶动态原子力显微镜中根据尖端样品相互作用对原子力显微镜灵敏度进行优化和校准
机译:各种声原子力显微镜的悬臂尖端-样品表面相互作用非线性动力学分析模型
机译:在液体中的跳跃模式原子力显微镜中最小化尖端采样力
机译:感应振动接触检测,以最小化跳跃模式原子力显微镜中的悬臂尖端样品相互作用力
机译:动态原子力显微镜中提取尖端样本力的近实时框架
机译:调频原子力显微镜的分子和悬臂耦合动力学模型
机译:动态兼容的悬臂可最大程度地降低尖端样品力并增强原子力显微镜的灵敏度