摘要:
There is disclosed a thin film transistor having a source region, a channel region, and a drain region in a semiconductor thin film whose crystals have grown in a transverse direction, the thin film transistor having a gate insulating film and a gate electrode in an upper part of the channel region, wherein a channel-region-side edge portion of the drain region or the source region is disposed in such a manner as to be positioned in the vicinity of an end position of lateral growth.
摘要:
The semiconductor device according to the present invention has a semiconductor layer having not smaller than two types of crystal grains different in size within a semiconductor circuit on a same substrate.
摘要:
The semiconductor device according to the present invention has a semiconductor layer having not smaller than two types of crystal grains different in size within a semiconductor circuit on a same substrate.
摘要:
The semiconductor device according to the present invention has a semiconductor layer having not smaller than two types of crystal grains different in size within a semiconductor circuit on a same substrate.
摘要:
The semiconductor device according to the present invention has a semiconductor layer having not smaller than two types of crystal grains different in size within a semiconductor circuit on a same substrate.
摘要:
There are provided a crystallization method which can design laser beam having a light intensity and a distribution optimized on an incident surface of a substrate, form a desired crystallized structure while suppressing generation of any other undesirable structure area and satisfy a demand for low-temperature processing, a crystallization apparatus, a thin film transistor and a display apparatus. When crystallizing a non-single-crystal semiconductor thin film by irradiating laser beam thereto, irradiation light beam to the non-single-crystal semiconductor thin film have a light intensity with a light intensity distribution which cyclically repeats a monotonous increase and a monotonous decrease and a light intensity which melts the non-single-crystal semiconductor. Further, at least a silicon oxide film is provided on a laser beam incident surface of the non-single-crystal semiconductor film.
摘要:
There are provided a crystallization method which can design laser beam having a light intensity and a distribution optimized on an incident surface of a substrate, form a desired crystallized structure while suppressing generation of any other undesirable structure area and satisfy a demand for low-temperature processing, a crystallization apparatus, a thin film transistor and a display apparatus. When crystallizing a non-single-crystal semiconductor thin film by irradiating laser beam thereto, irradiation light beam to the non-single-crystal semiconductor thin film have a light intensity with a light intensity distribution which cyclically repeats a monotonous increase and a monotonous decrease and a light intensity which melts the non-single-crystal semiconductor. Further, at least a silicon oxide film is provided on a laser beam incident surface of the non-single-crystal semiconductor film.
摘要:
In a laser processing method and a laser processing apparatus which irradiate a processing target body with a laser beam pulse-oscillated from a laser beam source, a processing state is monitored by a photodetector, and the laser beam source is again subjected to oscillation control on the moment when erroneous laser irradiation is detected, thereby performing laser processing. Further, in a laser crystallization method and a laser crystallization apparatus using a pulse-oscillated excimer laser, a homogenizing optical system, an optical element and a half mirror are arranged in an optical path, light from the half mirror is detected by a photodetector, and a light intensity insufficient irradiation position is again irradiated with a laser beam to perform crystallization when the detection value does not fall within a range of a predetermined specified value.
摘要:
In a laser processing method and a laser processing apparatus which irradiate a processing target body with a laser beam pulse-oscillated from a laser beam source, a processing state is monitored by a photodetector, and the laser beam source is again subjected to oscillation control on the moment when erroneous laser irradiation is detected, thereby performing laser processing. Further, in a laser crystallization method and a laser crystallization apparatus using a pulseoscillated excimer laser, a homogenizing optical system, an optical element and a half mirror are arranged in an optical path, light from the half mirror is detected by a photodetector, and a light intensity insufficient irradiation position is again irradiated with a laser beam to perform crystallization when the detection value does not fall within a range of a predetermined specified value.
摘要:
In a laser processing method and a laser processing apparatus which irradiate a processing target body with a laser beam pulse-oscillated from a laser beam source, a processing state is monitored by a photodetector, and the laser beam source is again subjected to oscillation control on the moment when erroneous laser irradiation is detected, thereby performing laser processing. Further, in a laser crystallization method and a laser crystallization apparatus using a pulse-oscillated excimer laser, a homogenizing optical system, an optical element and a half mirror are arranged in an optical path, light from the half mirror is detected by a photodetector, and a light intensity insufficient irradiation position is again irradiated with a laser beam to perform crystallization when the detection value does not fall within a range of a predetermined specified value.