摘要:
A non-oxide ceramics having improved performances and functions by forming a high-quality oxide film on the surface of a non-oxide ceramics such as aluminum nitride. The method for the formation of the non-oxide ceramics comprises the steps of: (1) providing a non-oxide ceramics; (2) introducing the non-oxide ceramics into a furnace and then regulating the atmosphere within the furnace so as to have an oxidizing gas content of not more than 0.5 mmol in terms of total number of moles of the oxidizing gas per m3 of the inside of the furnace; (3) heating the non-oxide ceramics to a temperature at or above a temperature, which is 300° C. below the oxidation start temperature of the non-oxide ceramics, while maintaining the low-oxidizing gas atmosphere and (4) bringing the non-oxide ceramics heated in the step (3) into contact with an oxidizing gas and then holding the non-oxide ceramics at a temperature above the oxidation start temperature of the non-oxide ceramics to form an oxide layer, and that, in the step (4), until at least two min. elapses after the arrival of the temperature at or above the oxidation start temperature after the start of the contact between the non-oxide ceramics and the oxidizing gas, the pressure or partial pressure of the oxidizing gas is maintained at not more than 50 kPa.
摘要:
There are provided an inspection apparatus and method that can locally perform sample temperature regulation, so that the sample drift can be suppressed. There are included a sample stage 109 that holds a semiconductor sample 118, multiple probes 106 used to measure electrical characteristics of a semiconductor device on the semiconductor sample 118, a power source that applies voltage and/or current to the probe 106, a detector that measures electrical characteristics of the semiconductor device on the sample with which the probe is brought into contact, and an electromagnetic wave irradiating mechanism that irradiates electromagnetic wave on a measurement section of the semiconductor sample 118.
摘要:
There are provided an inspection apparatus and method that can locally perform sample temperature regulation, so that the sample drift can be suppressed. There are included a sample stage 109 that holds a semiconductor sample 118, multiple probes 106 used to measure electrical characteristics of a semiconductor device on the semiconductor sample 118, a power source that applies voltage and/or current to the probe 106, a detector that measures electrical characteristics of the semiconductor device on the sample with which the probe is brought into contact, and an electromagnetic wave irradiating mechanism that irradiates electromagnetic wave on a measurement section of the semiconductor sample 118.
摘要:
A semiconductor testing method capable of quickly counting semiconductor cells with accuracy is achieved. Since an SEM is adjusted in a specific condition, the rotation axis of a stage and the axis of an optical system are deviated from each other in a different observation environment and a different adjustment environment. The deviation between the axes is easily adjusted in each observation environment, so that the deviation is reduced. A seemingly horizontal or vertical line is drawn with a mouse and raster rotation is performed in alignment with the closer axis. After that, the stage is horizontally moved, pattern matching is performed on an image on a position where the image should be disposed, and an angle is adjusted. The stage is moved evenly along the X-axis and the Y-axis, achieving a movement to a destination like a straight line. In synchronization with the smooth movement of the stage, a cell 201 is surrounded in a rectangular frame 205 by a ruler 301 and the number of cells is displayed with a numeric value 302. Thus by using a correct direction and a stable velocity, image correction (501 to 504) is further performed during the movement of the stage (403), so that the cells 201 can be easily counted with accuracy.
摘要:
A semiconductor testing method capable of quickly counting semiconductor cells in which a seemingly horizontal or vertical line is drawn with a mouse, and raster rotation is performed in alignment with the closer axis. After that, the stage is horizontally moved, pattern matching is performed on an image on a position where the image should be disposed, and an angle is adjusted. The stage is moved evenly along the X-axis and the Y-axis, achieving a movement to a destination like a straight line. In synchronization with the smooth movement of the stage, a cell is surrounded in a rectangular frame by a ruler, and the number of cells is displayed with a numeric value.
摘要:
A semiconductor testing method capable of quickly counting semiconductor cells in which a seemingly horizontal or vertical line is drawn with a mouse, and raster rotation is performed in alignment with the closer axis. After that, the stage is horizontally moved, pattern matching is performed on an image on a position where the image should be disposed, and an angle is adjusted. The stage is moved evenly along the X-axis and the Y-axis, achieving a movement to a destination like a straight line. In synchronization with the smooth movement of the stage, a cell is surrounded in a rectangular frame by a ruler, and the number of cells is displayed with a numeric value.
摘要:
A semiconductor testing method capable of quickly counting semiconductor cells in which a seemingly horizontal or vertical line is drawn with a mouse, and raster rotation is performed in alignment with the closer axis. After that, the stage is horizontally moved, pattern matching is performed on an image on a position where the image should be disposed, and an angle is adjusted. The stage is moved evenly along the X-axis and the Y-axis, achieving a movement to a destination like a straight line. In synchronization with the smooth movement of the stage, a cell is surrounded in a rectangular frame by a ruler, and the number of cells is displayed with a numeric value.
摘要:
There are provided an inspection apparatus and method that can locally perform sample temperature regulation, so that the sample drift can be suppressed. There are included a sample stage 109 that holds a semiconductor sample 118, multiple probes 106 used to measure electrical characteristics of a semiconductor device on the semiconductor sample 118, a power source that applies voltage and/or current to the probe 106, a detector that measures electrical characteristics of the semiconductor device on the sample with which the probe is brought into contact, and an electromagnetic wave irradiating mechanism that irradiates electromagnetic wave on a measurement section of the semiconductor sample 118.