Multiphoton absorption of femtosecond laser pulses focused through an objective with high numerical aperture(NA)can be used to image and manipulate cellular and intracellular objects.This review highlights recent adva...Multiphoton absorption of femtosecond laser pulses focused through an objective with high numerical aperture(NA)can be used to image and manipulate cellular and intracellular objects.This review highlights recent advances in intracellular manipulation,including nanosurgery and labeling in living cells with femtosecond lasers.展开更多
A special device with photocurrent amplification function is reported. The device with long base region structure consists of dual route photodetectors and their amplifier. Two photodetectors with a space of 50 μm ...A special device with photocurrent amplification function is reported. The device with long base region structure consists of dual route photodetectors and their amplifier. Two photodetectors with a space of 50 μm are precisely located in this device. The device with current sensitivity of S ≥15 A/lm,static state current transmission coefficient of h FE ≥5 000, single route dark current of I D≥1 μA, high frequency current transmission coefficient modulus of | h fe |≥1 at 400 MHz is obtained. At present, the device has been tried out in展开更多
文摘Multiphoton absorption of femtosecond laser pulses focused through an objective with high numerical aperture(NA)can be used to image and manipulate cellular and intracellular objects.This review highlights recent advances in intracellular manipulation,including nanosurgery and labeling in living cells with femtosecond lasers.
文摘A special device with photocurrent amplification function is reported. The device with long base region structure consists of dual route photodetectors and their amplifier. Two photodetectors with a space of 50 μm are precisely located in this device. The device with current sensitivity of S ≥15 A/lm,static state current transmission coefficient of h FE ≥5 000, single route dark current of I D≥1 μA, high frequency current transmission coefficient modulus of | h fe |≥1 at 400 MHz is obtained. At present, the device has been tried out in
