| 摘要 |
A nondestructive inspection device (or method) is basically configured such that a laser beam (1300 nm) is irradiated on a surface (or back) of a semiconductor device chip to scan. Due to irradiation of the laser beam, a defect position is heated to cause a thermoelectromotive current, which induces a magnetic field. A magnetic field detector such as SQUID detects a strength of the magnetic field, based on which a scan magnetic field image is produced. A display device superimposes the scan magnetic field image on a scan laser microphotograph on a screen, so it is possible to perform defect inspection on the semiconductor device chip. Incidentally, a semiconductor device wafer is constructed to include a thermoelectromotive force generator and its wires, which are electrically connected to first-layer wires. By irradiation of the laser beam on the thermoelectromotive force generator, it is possible to detect a short-circuit defect, which lies between the first-layer wires. Further, it is possible to perform nondestructive inspection on a semiconductor integrated circuit, which is in an intermediate stage of manufacture before formation of bonding pads and which includes a closed circuit configured by a first-layer wire, including a thermoelectromotive force generating defect, a circuit via and an inspection via as well as a metal film, which is formed in a relatively broad range of a surface area and is used to form a second-layer wire.
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