In an inspection apparatus, inspection is carried out by linearly moving a wafer while rotating the wafer with respect to light. In a case where the wafer is rotated, the velocity of flow of air in outer regions of the wafer is increased, and there is a possibility that the flow of the air in the ou
In an inspection apparatus, inspection is carried out by linearly moving a wafer while rotating the wafer with respect to light. In a case where the wafer is rotated, the velocity of flow of air in outer regions of the wafer is increased, and there is a possibility that the flow of the air in the outer regions cause particles contained in an atmosphere in the vicinity of the wafer to be adhered to the wafer. In a case where such particles are adhered to the wafer, the particles are also detected as a defect, and therefore yields and cleanliness in a semiconductor production process cannot be correctly evaluated. Therefore, it is desirable that adhesion of the particles contained in the atmosphere in the vicinity of the wafer to the wafer be reduced as much as possible. Further, it is expected that, when, for example, rotation speed of the wafer is increased or a diameter of the wafer is increased, such particles are adhered further remarkably. This point has not been satisfactorily considered in the conventional arts. The invention has a feature that a conductor such as a draft to outer regions is supplied from above a substrate while the substrate is being rotated and the supplied conductor is exhausted on outside of the substrate.
대표청구항▼
1. An inspection apparatus, comprising: a spindle for rotating a substrate;a chamber for covering at least the substrate;a plurality of pairs of an opening and an exhaust in the chamber, each of which supplies a laminar flow to outer regions from above the substrate along an inner surface of the cha
1. An inspection apparatus, comprising: a spindle for rotating a substrate;a chamber for covering at least the substrate;a plurality of pairs of an opening and an exhaust in the chamber, each of which supplies a laminar flow to outer regions from above the substrate along an inner surface of the chamber and exhausts the laminar flow on the outside of the substrate; whereineach of the plurality of pairs are positioned circumferentially to surround the substrate and to supply and exhaust independent and different laminar flows. 2. The inspection apparatus according to claim 1, further comprising: an illumination optical system for irradiating the substrate with light; anda detection optical system for detecting the light from the substrate, wherein:an aperture is provided in an upper surface of the chamber;the illumination optical system irradiates the substrate with the light through the aperture; andthe detection optical system detects the light from the substrate through the aperture. 3. The inspection apparatus according to claim 2, wherein the substrate is illuminated with the light at a Brewster's angle. 4. The inspection apparatus according to claim 2, wherein the at least one opening is provided outside the aperture on the upper surface. 5. The inspection apparatus according to claim 4, wherein the at least one opening supplies the laminar flow from the upper surface at a an angle. 6. The inspection apparatus according to claim 4, wherein the exhaust is located outside a position on which the substrate is located. 7. The inspection apparatus according to claim 2, wherein the at least one opening is located on a side surface of the chamber. 8. The inspection apparatus according to claim 7, wherein the exhaust is located on the side surface of the chamber and located at a position closer to the substrate than to the at least one opening. 9. The inspection apparatus according to claim 1, wherein a direction of the supplied laminar flow is same as a direction of rotation of the substrate. 10. The inspection apparatus according to claim 1, further comprising: an illumination optical system for irradiating the substrate with light; anda detection optical system for detecting the light from the substrate, whereinthe illumination optical system and the detection optical system are provided in the chamber and detect the light from the substrate. 11. The inspection apparatus according to claim 10, wherein the at least one opening supplies the laminar flow from an upper surface of the chamber at an angle. 12. The inspection apparatus according to claim 10, wherein the exhaust is located outside a position on which the substrate is located. 13. The inspection apparatus according to claim 10, wherein the at least one opening is provided on a side surface of the chamber. 14. The inspection apparatus according to claim 13, wherein the exhaust is located on the side surface of the chamber and is located at a position closer to the substrate than to the at least one opening. 15. The inspection apparatus according to claim 1, wherein a direction of the supplied laminar flow is same as a direction of rotation of the substrate. 16. The inspection apparatus according to claim 1, wherein the number of the pairs is three. 17. An inspection apparatus, comprising: a spindle for rotating a substrate;a chamber for covering at least the substrate;a plurality of pairs of an opening and an exhaust in the chamber, each of which supplies a conductor to outer regions from above the substrate along an inner surface of the chamber and exhausts the conductor on the outside of the substrate; andwherein flow directions of each conductor are along the spin direction of the spindle; and whereineach of the plurality of pairs are positioned circumferentially to surround the substrate and to supply and exhaust independent and different laminar flows. 18. The inspection apparatus according to claim 17, wherein the number of the pairs is three.
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이 특허에 인용된 특허 (15)
Rose Peter H. ; Sferlazzo Piero ; van der Heide Robert G., Aerosol surface processing.
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