Method for manufacturing an ignition plug including a mark formed of an oxide film

Having described the invention, the following is claimed: 1. A method for manufacturing an ignition plug configured to ignite an air-fuel mixture in an internal combustion engine, the method comprising: a preparation step of preparing a metal member that constitutes a part of the ignition plug; and a marking step of forming a mark that is formed of an oxide film or is formed of the metal member and the oxide film by radiating a laser beam onto a surface of the metal member, wherein the mark comprises: a first portion; and a second portion having a reflectance higher than a reflectance of the first portion, and wherein the marking step comprises a first step of radiating the laser beam onto a portion on the surface of the metal member where the first portion is to be formed or a portion on the surface of the metal member where the second portion is to be formed. 2. The method for manufacturing an ignition plug according to claim 1 , wherein the marking step further comprises, after the first step, a second step of radiating the laser beam onto the portion where the first portion is to be formed but the laser beam is not radiated in the first step or the portion where the second portion is to be formed but the laser beam is not radiated in the first step. 3. The method for manufacturing an ignition plug according to claim 1 , wherein the marking step further comprises, before the first step, an underlayer forming step of forming an underlayer region by radiating the laser beam onto a portion where the mark is to be formed. 4. The method for manufacturing an ignition plug according to claim 2 , wherein the marking step further comprises, before the first step, an underlayer forming step of forming an underlayer region by radiating the laser beam onto a portion where the mark is to be formed. 5. The method for manufacturing an ignition plug according to claim 1 , wherein the first portion is formed by promoting formation of the oxide film through radiation of the laser beam, and wherein the second portion is formed by removing the oxide film through radiation of the laser beam. 6. The method for manufacturing an ignition plug according to claim 2 , wherein the first portion is formed by promoting formation of the oxide film through radiation of the laser beam, and wherein the second portion is formed by removing the oxide film through radiation of the laser beam. 7. The method for manufacturing an ignition plug according to claim 3 , wherein the first portion is formed by promoting formation of the oxide film through radiation of the laser beam, and wherein the second portion is formed by removing the oxide film through radiation of the laser beam. 8. The method for manufacturing an ignition plug according to claim 5 , wherein the first portion is formed by promoting formation of the oxide film through radiation of the laser beam, and wherein the second portion is formed by removing the oxide film through radiation of the laser beam.