Gas sensor and gas detection method

We/I claim: 1 . A gas sensor, comprising: a first detection element which has a first oscillator of a prescribed structure as well as a first adsorption film provided on the first oscillator to adsorb a first gas, wherein a resonance frequency of the first oscillator changes according to an adsorption of the first gas; a second detection element which has a second oscillator of the prescribed structure as well as a second adsorption film provided on the second oscillator to adsorb moisture content in the gas, wherein a resonance frequency of the second oscillator changes according to an adsorption of the moisture; and a third detection element which has a third oscillator of the prescribed structure, wherein a resonance frequency of the third oscillator changes according to a temperature of the gas. 2 . A gas sensor according to claim 1 , further comprising a fourth detection element which has a fourth oscillator of the prescribed structure as well as a fourth adsorption film provided on the fourth oscillator to adsorb a second gas different from the first gas, wherein a resonance frequency of the fourth oscillator changes according to an adsorption of the second gas. 3 . A gas sensor according to claim 1 , comprising a computing unit which corrects a change in the resonance frequency of the first detection element based on a change in the resonance frequency of the second detection element and a change in the resonance frequency of the third detection element. 4 . A gas sensor according to claim 3 , wherein the computing unit corrects a change in the resonance frequency of the fourth detection element based on a change in the resonance frequency of the second detection element and a change in the resonance frequency of the third detection element. 5 . A gas sensor according to claim 3 , wherein the computing unit corrects a change in the resonance frequency of the second detection element based on a change in the resonance frequency of the third detection element, and then corrects a change in the resonance frequency of the first detection element based on the aforementioned correction result and the change in the resonance frequency of the third detection element. 6 . A gas sensor according to claim 1 , wherein: the first oscillator and second oscillator are each constituted by an AT-cut quartz plate; and the third oscillator is constituted by a quartz plate whose resonance frequency changes as a linear function of temperature change. 7 . A gas detection method comprising: detecting a change in a resonance frequency of a first detection element which has a first oscillator of a prescribed structure as well as a first adsorption film provided on the first oscillator to adsorb a specific gas, due to an adsorption of the gas; detecting a change in a resonance frequency of a second detection element which has a second oscillator of the prescribed structure as well as a second adsorption film provided on the second oscillator to adsorb a moisture content in the gas, due to an adsorption of the moisture; detecting a change in a resonance frequency of a third detection element which has a third oscillator of the prescribed structure, due to a temperature of the gas; correcting a detection result of the second detection element based on a detection result of the third detection element; correcting a detection result of the first detection element based on the aforementioned correction result and the detection result of the third detection element; and identifying the gas from the corrected detection result of the first detection element. 8 . A gas detection method according to claim 7 , wherein: the first oscillator and second oscillator are each constituted by an AT-cut quartz plate; and the third oscillator is constituted by a quartz plate whose resonance frequency changes as a linear function of temperature change.