摘要:
Provided is a method of manufacturing a nano scale semiconductor device, such as a nano scale P-N junction device or a CMOS using nano particles without using a mask or a fine pattern. The method includes dispersing uniformly a plurality of nano particles on a semiconductor substrate, forming an insulating layer covering the nano particles on the semiconductor substrate, partly removing the upper surfaces of the nano particles and the insulating layer, selectively removing the nano particles from the insulating layer, and partly forming doped semiconductor layers in the semiconductor substrate by partly doping the semiconductor substrate through spaces formed by removing the nano particles.
摘要:
Provided is a method of manufacturing a nano scale semiconductor device, such as a nano scale P-N junction device or a CMOS using nano particles without using a mask or a fine pattern. The method includes dispersing uniformly a plurality of nano particles on a semiconductor substrate, forming an insulating layer covering the nano particles on the semiconductor substrate, partly removing the upper surfaces of the nano particles and the insulating layer, selectively removing the nano particles from the insulating layer, and partly forming doped semiconductor layers in the semiconductor substrate by partly doping the semiconductor substrate through spaces formed by removing the nano particles.
摘要:
Off-axis projection optics that includes first and second mirrors positioned off-axis and sharing a confocal point that are arranged to reduce linear astigmatism. If a distance between an object plane and the first mirror is l1, an incident angle of light coming from the object plane to the first mirror is i1, a distance between the first mirror and the confocal point is l1′, a distance between the confocal point and the second mirror is l2, an incident angle of light coming from the first mirror to the second mirror is i2, and a distance between the second mirror and an image plane is l2′, the off-axis projection optics may satisfy the following equation: l 1 ′ + l 1 l 1 tan i 1 = l 2 ′ + l 2 l 2 tan i 2 .
摘要:
A mask for lithography and a method of manufacturing the same. The mask may include a substrate, a reflection layer formed of a material capable of reflecting electromagnetic rays on the substrate and an absorption pattern formed in a desired pattern such that absorbing regions with respect to electromagnetic rays and windows through which electromagnetic rays pass are formed, wherein the absorption pattern includes at least one side surface that is adjacent to the window and is inclined with respect to the reflection layer. The method may include forming a reflection layer which is formed of a material capable of reflecting electromagnetic rays on a substrate, forming an absorption layer which is formed of a material capable of absorbing electromagnetic rays on the refection layer, and patterning the absorption layer to form an absorption pattern with at least one side surface adjacent to a window that has an inclined side surface with respect to the reflection layer.
摘要:
Off-axis projection optics that includes first and second mirrors positioned off-axis and sharing a confocal point that are arranged to reduce linear astigmatism. If a distance between an object plane and the first mirror is l1, an incident angle of light coming from the object plane to the first mirror is i1, a distance between the first mirror and the confocal point is l1′, a distance between the confocal point and the second mirror is l2, an incident angle of light coming from the first mirror to the second mirror is i2, and a distance between the second mirror and an image plane is l2′, the off-axis projection optics may satisfy the following equation: l 1 ′ + l 1 l 1 tan i 1 = l 2 ′ + l 2 l 2 tan i 2 .
摘要:
Off-axis projection optics that includes first and second mirrors positioned off-axis and sharing a confocal point that are arranged to reduce linear astigmatism. If a distance between an object plane and the first mirror is l1, an incident angle of light coming from the object plane to the first mirror is i1, a distance between the first mirror and the confocal point is l1′, a distance between the confocal point and the second mirror is l2, an incident angle of light coming from the first mirror to the second mirror is i2, and a distance between the second mirror and an image plane is l2′, the off-axis projection optics may satisfy the following equation: l 1 ′ + l 1 l 1 tan i 1 = l 2 ′ + l 2 l 2 tan i 2 .
摘要:
A photomask may include a reflection layer including a material capable of reflecting electromagnetic radiation, and at least one ion region. The ion region may be formed by implanting ions of an absorbent capable of absorbing electromagnetic radiation. The reflection layer may have a stack structure including a plurality of layers. The ions of the dopant may be implanted into at least one of the plurality of layers.
摘要:
A photomask and method thereof. In an example method, a photomask may be manufactured by forming an oxide layer on a surface, patterning the oxide layer to form an oxide pattern, the oxide pattern including a plurality of oxide pattern bodies and a plurality of oxide windows, filling the plurality of oxide windows with an absorbent to form an absorbent pattern and reducing the plurality of oxide pattern bodies. An example photomask may include an oxide pattern-based absorbent pattern including a plurality of absorbent pattern bodies and a plurality of absorbent pattern windows.
摘要:
Off-axis projection optics that includes first and second mirrors positioned off-axis and sharing a confocal point that are arranged to reduce linear astigmatism. If a distance between an object plane and the first mirror is l1, an incident angle of light coming from the object plane to the first mirror is i1, a distance between the first mirror and the confocal point is l1′, a distance between the confocal point and the second mirror is l2, an incident angle of light coming from the first mirror to the second mirror is i2, and a distance between the second mirror and an image plane is l2′, the off-axis projection optics may satisfy the following equation: l 1 ′ + l 1 l 1 tan i 1 = l 2 ′ + l 2 l 2 tan i 2 .
摘要:
Provided are a light-receiving element which has more capability of detecting wavelengths than that of existing silicon light-receiving elements and a unit pixel of an image sensor by using it. The light-receiving element includes: a light-receiving unit which is floated or connected to external voltage and absorbs light; an oxide film which is formed to come in contact with a side of the light-receiving unit; a source and a drain which stand off the light-receiving unit with the oxide film in between and face each other; a channel which is formed between the source and the drain and forms an electric current between the source and the drain; and a wavelength expanding layer which is formed in at least one among the light-receiving unit, the oxide film and the channel and forms a plurality of local energy levels by using strained silicon.