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    • 7. 发明专利
    • FINE PROTRUSION INSPECTION APPARATUS
    • JP2001311608A
    • 2001-11-09
    • JP2000131967
    • 2000-05-01
    • HITACHI ELECTR ENG
    • MATSUNAGA RYOJITABATA TAKAHITOISHIMORI HIDEO
    • G01B11/02G01B11/00G01B11/24G01B11/245G01B11/30G01C3/06G03F7/20H01L21/66
    • PROBLEM TO BE SOLVED: To make highly accurate and fast inspection of the height of a fine protrusion performable. SOLUTION: By a projection optical system means, a light beam is made to irradiate the surface of a simple to be inspected to make the surface the focusing position, and deflects a beam spot formed on the surface of the sample by the light beam so as to reciprocally scan the inspection area linearly at a specified cycle. A branching means branches the light beam reflected from the surface of the sample into two light beams. First and second optical sensor means respectively receive the light beam branched and each have a photodetecting surface having a plurality of light receivable areas arrayed at a specified pitch along the direction of the deflection of the light beam. The light receivable areas correspond to the conventional pinholes and are arrayed in plurality at a specified pitch along the direction of the deflection of the light beam. First and second detection signals are properly extracted corresponding to the light receivable areas in synchronism with the scanning of the light beams, from first and second groups of detection signals which are outputted corresponding to the light beams respectively incident into the plurality of the first and second light receivable areas to determine a differential value between the both, thereby calculating the height information of a fine protrusion formed on the sample.
    • 8. 发明专利
    • FOREIGN MATTER DETECTING METHOD
    • JPH04318447A
    • 1992-11-10
    • JP11236691
    • 1991-04-17
    • HITACHI ELECTR ENG
    • NEMOTO RYOJIMATSUNAGA RYOJI
    • G01N21/88G01N21/94G01N21/956H01L21/66
    • PURPOSE:To detect a foreign matter without deteriorating the S/N of the output voltage of a converter by intercepting the regularly reflected component of the reflected light of a vertical laser beam by means of a stopper. CONSTITUTION:A wafer 1 is irradiated with an S-polarized beam having a wavelength lambda1 at a low angle and with another S-polarized beam having a wavelength lambda2 from a light source 23 in the direction perpendicular to the wafer 1. Each reflected light is condensed by means of an objective 31 and passed to a beam splitter 25. Then the light is subjected wavelength separation by means of a wavelength separating prism 32 and polarized light having the optimum detecting sensitivity is extracted from the reflected light having the wavelength lambda2 by means of an analyzer 33 and received by a photoelectric converter 34 from which a voltage VL is outputted. Regarding the reflected light having the wavelength lambda2, on the other hand, the regularly reflected component of the reflected light is intercepted by means of a stopper 37 after the light is subjected to wavelength separation and polarized waves are similarly extracted by means of the analyzer 35. The extracted polarized light is received by a photo-electric converter 36 and a voltage VH is outputted. Both output voltages are inputted to a divider 41 by which a ratio VH/VL is calculated and a foreign matter pulse Pa is obtained through a comparator 42.
    • 9. 发明专利
    • METHOD AND APPARATUS FOR DETECTING HEIGHT OF MICRO PROTRUSION AND DEFECT DETECTOR
    • JP2001074423A
    • 2001-03-23
    • JP24830199
    • 1999-09-02
    • HITACHI ELECTR ENG
    • MATSUNAGA RYOJITABATA TAKAHITO
    • G01B11/24
    • PROBLEM TO BE SOLVED: To detect the height of a micro protrusion, e.g. a bump, with high accuracy by receiving a plurality of detection signals from an optical sensor and calculating the height of the micro protrusion, based on the plurality of detection signals. SOLUTION: A detection area 3 on a wafer 1 is irradiated with a laser beam 4 in a projection optical system 16 and scanned repeatedly at high speed with a constant width covering the width of a bump in the sub-scanning direction, i.e., the Y direction. The optical sensor in a focus error detection optical system 15 has a division width corresponding to the repetitive scanning width in the sub-scanning direction and the image of a detection area obtained with the scanning width is received by the optical sensor to produce a series of detection signals for each scan. Furthermore, a plurality of detection signals are obtained by repeating scanning while deflecting the light beam 4 thus obtaining three- dimensional data of a micro protrusion at high rate. Subsequently, the height is calculated or a defect is detected based on the three-dimensional data thus detecting a defect, e.g. chipping, of the micro protrusion.
    • 10. 发明专利
    • ILLUMINATION OPTICAL SYSTEM FOR FOREIGN OBJECT INSPECTING DEVICE
    • JPH04142450A
    • 1992-05-15
    • JP26485290
    • 1990-10-02
    • HITACHI ELECTR ENG
    • MATSUNAGA RYOJI
    • G01N21/84G01J1/02G01J1/04G01N21/88G01N21/94G01N21/956G03F1/84
    • PURPOSE:To improve detection performance by changing the laser light flux emitted from a light source into a parallel flux with a collimator, expanding the long diameter of a pseudo elliptic shape with light flux changing prism systems, and shrinking its short diameter with a cylindrical lens. CONSTITUTION:The laser light with the power several times larger than that in the single mode is emitted from a multi-mode LD 2. The light flux is changed into a parallel flux by a collimator 4, the long diameter is expanded by light flux changing prism systems 3, the short diameter is shrunk by a cylindrical lens 10, the laser light with a linear cross section having the long/short ratio of tens is obtained, and a linear spot wholly focused by a focusing lens system 5 at the same long/short ratio is radiated to an inspected object. The illuminance of the spot is increased by the increase and linearization of the laser power, and detection performance is improved. Two light flux changing prism systems 3 are used at the most, thus the sensitivity irregularity due to the interference phenomenon disappears. The long diameter of the multi-mode laser light is long, and the long diameter can be expanded to nearly the same length as that in the single mode by two or less light flux changing prisms.