Etching method

What is claimed is: 1. An etching method of a silicon oxide film formed on a substrate, the method comprising: forming a hard mask on the silicon oxide film; etching the hard mask in order to form an opening on the hard mask so that a surface of the silicon oxide is exposed; exposing the substrate formed with the silicon oxide film and the hard mask having the opening to plasma of a fluorocarbon-based gas within a processing container of a capacitively coupled plasma processing apparatus, which includes a placing table serving as a lower electrode and an upper electrode being spaced apart from the lower electrode with a predetermined distance, thereby etching the silicon oxide film through the opening of the hard mask in order to form a hole in the silicon oxide film; changing the predetermined distance between the lower electrode and the upper electrode such that the distance between the lower electrode and the upper electrode becomes at least 5/3 times of the predetermined distance; and further exposing, with the distance between the placing table and the upper electrode at least 5/3 times the predetermined distance, the substrate formed with the hole in the silicon oxide to the plasma of a fluorocarbon-based gas to further etch the silicon oxide through the hole until an aspect ratio of the hole becomes about 50 or more while suppressing an occurrence of bowing and a reduction of a selection ratio between the silicon oxide and the hard mask, the aspect ratio of the hole being defined as a depth of the hole divided by a width of the hole. 2. The etching method of claim 1 , wherein the distance between the placing table and the upper electrode after the changing step is 50 mm or more. 3. The etching method of claim 2 , wherein the distance between the placing table and the upper electrode in the further exposing the substrate to the plasma is set to be 50 mm or more to reduce high order radicals including CF 2 radicals and increase low order radicals including fluorine radicals having a lower adhering coefficient than one of the high order radicals so that a side wall protection effect in the hole by a fluorocarbon deposit generated by the low order radicals is extended to a bottom of the hole, thereby suppressing occurrence of bowing below the hard mask. 4. The etching method of claim 1 , wherein the exposing the substrate to the plasma of the fluorocarbon-based gas is performed until a space with an aspect ratio of 40 or less is formed in the silicon oxide film. 5. The etching method of claim 1 , wherein a gas species of a gas supplied into the processing chamber is unchanged during a period from the exposing the substrate to the plasma of the fluorocarbon-based gas to the further exposing the substrate to the plasma of the fluorocarbon-based gas. 6. The etching method of claim 1 , wherein a silicon-containing gas is not supplied into the processing container during a period from the exposing the substrate to the plasma of the fluorocarbon-based gas to the further exposing the substrate to the plasma of the fluorocarbon-based gas. 7. The etching method of claim 1 , wherein the further exposing the substrate to the plasma is performed in a condition where a radio frequency voltage based on a radio frequency bias power generated by a second radio frequency power supply is increased and a current flowing from the upper electrode is reduced while suppressing variation of a radio frequency voltage based on a radio frequency power generated by a first radio frequency power supply. 8. The etching method of claim 1 , wherein the further exposing the substrate to the plasma is performed in a condition where a radio frequency voltage based on a radio frequency bias power generated by a second radio frequency power supply is increased and a current flowing from the upper electrode is reduced.