Dielectric barrier discharge ionization detector and method for tuning the same

The invention claimed is: 1. A dielectric barrier discharge ionization detector, comprising: a discharge electrode; a voltage supplier for applying AC voltage to the discharge electrode so as to generate plasma by causing a dielectric barrier discharge in a gas passage through which a predetermined gas is passed; a sample gas injector placed on a gas downstream side from a generation area of the plasma within the gas passage, for ejecting a sample gas in a direction opposite to a flowing direction of the gas; and an ion detector placed on the gas downstream side from the generation area of the plasma within the gas passage, including a collector electrode for collecting ions generated from a sample component in the sample gas by light emitted from the plasma, wherein an ejection port for ejecting the sample gas into the gas passage in the sample gas injector is placed on the gas downstream side of the predetermined gas from the collector electrode; the ion detector includes a bias electrode placed on the gas upstream side of the predetermined gas from the collector electrode in order to form a DC electric field for promoting a movement of ions in the gas passage, and the ejection port of the sample-gas injector is placed on a gas downstream side from an end of the collector electrode on a side where the bias electrode is located. 2. The dielectric barrier discharge ionization detector according to claim 1 , wherein the ejection port of the sample-gas injector is placed at a distance of 7 mm or less from the collector electrode on the gas downstream side in the gas passage. 3. A dielectric barrier discharge ionization detector, comprising: a discharge electrode; a voltage supplier for applying AC voltage to the discharge electrode so as to generate plasma by causing a dielectric barrier discharge in a gas passage through which a predetermined gas is passed; a sample gas injector placed on a gas downstream side from a generation area of the plasma within the gas passage, for ejecting a sample gas in a direction opposite to a flowing direction of the gas; and an ion detector placed on the gas downstream side from the generation area of the plasma within the gas passage, including a collector electrode for collecting ions generated from a sample component in the sample gas by light emitted from the plasma, wherein an ejection port for ejecting the sample gas into the gas passage in the sample gas injector is placed on the gas downstream side of the predetermined gas from the collector electrode, the ion detector includes a bias electrode placed on the gas downstream side of the predetermined gas from the collector electrode in order to form a DC electric field for promoting a movement of ions in the gas passage; and the ejection port of the sample-gas injector is placed on a gas downstream side from an end of the collector electrode on a side where the bias electrode is located and is placed on a gas upstream side from an end of a gas downstream side of the bias electrode. 4. The dielectric barrier discharge ionization detector according to claim 3 , wherein the ejection port of the sample-gas injector is placed at a distance of 7 mm or less from the collector electrode on the gas downstream side in the gas passage. 5. A dielectric barrier discharge ionization detector, comprising: a discharge electrode; a voltage supplier for applying AC voltage to the discharge electrode so as to generate plasma by causing a dielectric barrier discharge in a gas passage through which a predetermined gas is passed; a sample gas injector placed on a gas downstream side from a generation area of the plasma within the gas passage, for ejecting a sample gas in a direction opposite to a flowing direction of the gas; and an ion detector placed on the gas downstream side from the generation area of the plasma within the gas passage, including a collector electrode for collecting ions generated from a sample component in the sample gas by light emitted from the plasma, wherein an ejection port for ejecting the sample gas into the gas passage in the sample gas injector is placed on the gas downstream side of the predetermined gas from the collector electrode, and the ejection port of the sample gas injector is placed at a position on the gas downstream side of the predetermined gas from a position at which a detection sensitivity is maximized, the latter position determined by changing the position of the ejection port of the sample-gas injector in the flowing direction of the predetermined gas, and the former position being a position at which the detection sensitivity is within a range from 90 to 10% of a maximum value of the detection sensitivity. 6. A dielectric barrier discharge ionization detector, comprising: a discharge electrode; a voltage supplier for applying AC voltage to the discharge electrode so as to generate plasma by causing a dielectric barrier discharge in a gas passage through which a predetermined gas is passed; a sample gas injector placed on a gas downstream side from a generation area of the plasma within the gas passage, for ejecting a sample gas in a direction opposite to a flowing direction of the gas; and an ion detector placed on the gas downstream side from the generation area of the plasma within the gas passage, including a collector electrode for collecting ions generated from a sample component in the sample gas by light emitted from the plasma, wherein an ejection port for ejecting the sample gas into the gas passage in the sample gas injector is placed on the gas downstream side of the predetermined gas from the collector electrode, the ion detector includes a bias electrode placed on the gas upstream or downstream side of the predetermined gas from the collector electrode in order to form a DC electric field for promoting a movement of ions in the gas passage, the ejection port of the sample-gas injector is placed on a gas downstream side from an end of the collector electrode on a side where the bias electrode is located, and the ejection port of the sample gas injector is placed at a position on the gas downstream side of the predetermined gas from a position at which a detection sensitivity is maximized, the latter position determined by changing the position of the ejection port of the sample-gas injector in the flowing direction of the predetermined gas, and the former position being a position at which the detection sensitivity is within a range from 90 to 10% of a maximum value of the detection sensitivity. 7. A dielectric barrier discharge ionization detector, comprising: a discharge electrode; a voltage supplier for applying AC voltage to the discharge electrode so as to generate plasma by causing a dielectric barrier discharge in a gas passage through which a predetermined gas is passed; a sample gas injector placed on a gas downstream side from a generation area of the plasma within the gas passage, for ejecting a sample gas in a direction opposite to a flowing direction of the gas; and an ion detector placed on the gas downstream side from the generation area of the plasma within the gas passage, including a collector electrode for collecting ions generated from a sample component in the sample gas by light emitted from the plasma, wherein an ejection port for ejecting the sample gas into the gas passage in the sample gas injector is placed on the gas downstream side of the predetermined gas from the collector electrode, the ejection port of the sample-gas injector is placed at a distance of 7 mm or less from the collector electrode on the gas downstream side in the gas passage, and the ejection port of the sample gas injector is placed at a position on the gas downstream side of the predetermined gas from a position at wh