The entire disclosure of Japanese Patent Application No. 2005-034369, filed on Feb. 10, 2005, is expressly incorporated herein by reference.
1. Technical Field
The present invention relates to a method for manufacturing an optical element, specifically, a wire grid polarizer for visible spectrum light.
2. Related Art
Conventionally, various optical elements, e.g., wide band wire grid polarizers that effectively transmit certain polarized light and reflect polarized light that runs perpendicular to that light, have been being developed as disclosed in JP-T-2003-502708 and others.
In inorganic polarizers that are currently in practical use, after resist patterning being performed on a substrate, dry etching is performed using RIE (Reactive Ion Etching) or the like to form a metal embossed pattern. However, when forming an embossed pattern on the nano-order, it is necessary to strictly control the etching parameter, so it has been difficult to manufacture a highly-accurate polarizer at a high yield. Therefore, there has been a demand for manufacturing an optical element, such as a polarizer, that is more inexpensive, highly-accurate, and capable of being mass-produced in greater quantities.
An advantage of some aspects of the invention is to provide an optical element, such as a polarizer, that is more inexpensive, highly-accurate, and capable of being mass-produced in greater quantities.
According to an aspect of the invention, a method for manufacturing an optical element having a metal wire grid containing a plurality of metal wires on a substrate, comprising forming the metal wire grid with an LSP (Liquid Self-patterning Process) is provided.
It is preferable that the metal wire grid is formed using a metal nano-paste as an embedded paste.
It is preferable that a resist pattern having a concave portion to embed the metal nano-paste therein is provided, and upon the metal nano-paste being burned, metal particles are deposited in the concave portion of the resist pattern.
It is preferable that the metal nano-paste is made from two or more kinds of metals, and forms a multi-element metal wire gird.
It is preferable that after the burning of the metal nano-paste, an LSP is conducted one or more times to form a multi-layered wire grid.
It is preferable that the metal nano-paste contains one or more kinds of metals selected from a group consisting of Al, Ag and Au.
It is preferable that a visible spectrum light polarizer is manufactured as the optical element.
Hereinafter, preferred embodiments of the method for manufacturing an optical element according to the invention are explained. However, the invention is not limited in any way to those embodiments.
(1) Resist Pattern Formation
As shown in
(2) Metal Nano-Paste Embedding
Next, as shown in
(3) Burning Process
As shown in
(4) Wire Grid Formation
As shown in
(5) Resist Removal
As shown in
Next, an embodiment in which a paste made from two kinds of metals, Al and silver (Ag), was used as a metal nano-paste will be explained below.
The method of manufacturing a polarizer according to this embodiment has the same steps as those in Embodiment 1 except the use of a paste made from two kinds of metals, Al and Ag, as a metal nano-paste to be embedded in the concave portions between the resists. Accordingly, for the points not specifically described in Embodiment 2, the matter explained in Embodiment 1 will arbitrarily be adopted.
In this embodiment, a metal nano-paste 13 made from Al, and a metal nano-paste 13 made from Ag were alternately applied by spin coating so that the metal nano-paste 13 is embedded in the concave portions between the resists 12. After the removal of the resists 12, a polarizer 20, which is a highly-accurate optical element, having a metal wire grid 14 containing a plurality of metal wires 14 with Al and Ag alternately laminated, that is capable of being mass-produced in greater quantities (multi-element and multi-layered metal wire grid) can easily be obtained at low cost.
Also in this embodiment, upon the nano-paste 13 being burned, metal particles of 100 nm or less in size were deposited in the concave portions between the resists 12.
The invention provides the aforementioned preferred embodiments. However, the invention is not limited to those embodiments, and can be modified so long as the modification does not depart from the technical scope of the invention.
In the embodiments, for the LSP, a metal nano-paste was used as an embedded paste. Otherwise, a solution containing nano-carbon, such as carbon nanotube, can be used.
For the metal to form the metal wire grid, other than Al and Ag, it is also preferable to use gold (Au), and a mixture thereof can also be used. A solid solution or intermetalic compound of Al and Ag may also be used.
In the embodiments, a visible spectrum light polarizer is manufactured as an optical element. However, the invention can also be applied to obtain a diffraction grating.
According to the invention, an optical element, such as a polarizer, that is highly-accurate and capable of being mass-produced in greater quantities can be obtained at low cost by forming a metal wire grid in the optical element using an LSP. Also, a multi-element and multi-layered metal wire grid can be formed easily, which widens the scope for material selection.
The invention is industrially applicable as a method for manufacturing an optical element, such as a polarizer, that is capable of being mass-produced in greater quantities at low cost.
Number | Date | Country | Kind |
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2005-034369 | Feb 2005 | JP | national |