Method for producing optical fiber preform

What is claimed is: 1. A method for producing an optical fiber preform, comprising: providing a porous glass base material to a furnace core tube of a dehydration-sintering furnace, the furnace core tube being filled with air having a heat conductivity higher than a heat conductivity of argon gas; beginning to replace the air in the furnace core tube with argon gas; beginning to allow a temperature of the porous glass base material to increase when 30% to 90% of a volume of the air in the furnace core tube is replaced with argon gas so that 70% to 10% of a volume of the air remains in the furnace core tube in a case where a total volume of the air and the argon gas is defined as 100% by volume in the furnace core tube; heating to dehydrate the porous glass base material using a dehydrating agent, the dehydrating agent being diluted by argon gas; and sintering the dehydrated porous glass base material. 2. A method for producing an optical fiber preform, comprising: providing a porous glass base material to a furnace core tube of a dehydration-sintering furnace, the furnace core tube being filled with air in the dehydration-sintering furnace; preparing a high heat conductivity gas having a heat conductivity higher than a heat conductivity of argon gas, the high heat conductivity gas being different from air; purging the high heat conductivity gas into the air filled furnace core tube and replacing 50% to 95% of a volume of the air presented in the furnace core tube with the high heat conductivity gas, the furnace core tube thus being filed with a mixture gas of the air and the high heat conductivity gas; beginning to introduce argon gas into the furnace core tube; beginning to allow a temperature of the porous glass base material to increase when 30% to 90% of a volume of the mixture gas in the furnace core tube is replaced with argon gas so that 70% to 10% of a volume of the mixture gas remains in the furnace core tube in a case where a total volume of the mixture gas and the argon gas is defined as 100% by volume in the furnace core tube; heating to dehydrate the porous glass base material heated using a dehydrating agent, the dehydrating agent being diluted by argon gas; and sintering the dehydrated porous glass base material. 3. The method for producing the optical fiber preform according to claim 2 , wherein the high heat conductivity gas is at least one type selected from the group consisting of a helium gas, nitrogen gas, and a neon gas. 4. The method for producing the optical fiber preform according to claim 2 , wherein the temperature of the porous glass base material begins to be increased when 40% to 80% of a volume of the mixture gas in the furnace core tube is replaced with argon gas.