A test structure and method for two-dimensional analysis of fabrication process variation of MOSFET using a photoemission microscope are presented. Arrays of 2010 (=200) MOSFETs were successfully measured at a time and evaluated the fluctuation of their characteristics. The fluctuation of hot-carrier-induced photoemission intensity was larger as gate length becomes smaller. Although the intensity fluctuation of photoemission in the same MOSFET was within small range, the fluctuation all over the MOSFET array was relatively large and independent of the position in the array. An estimation method of the gate length fluctuation has been demonstrated with the photoemission intensity distribution analysis.

A new test structure, which has a 0.5 µm line and space polysilicon pattern of which center is aligned on the MOSFET's gate center, is proposed for hot-carrier-induced photoemission analysis in subquarter micron devices. The photoemission-intensity profiles were measured using the photoemission microscope with a liquid N2 cooled CCD imager. We successfully measured a peak position of photoemission intensity from the center of MOSFET's gate with a spatial resolution sufficiently less than 24 nm at the microscope magnification of 1000. The test structure is useful to study the photoemission effects in semiconductor devices.