Ionizer and mass spectrometer including first section for ionizing sample under atmospheric pressure while vaporizing or desorbing the sample component and second section for generating corona discharge

The invention claimed is: 1. An ionizer for producing a sample-derived ion under atmospheric pressure and for introducing the ion through an ion introduction opening into a subsequent section maintained at a lower gas pressure, the ionizer comprising: a) a first ionization section for ionizing a sample component in a solid or liquid sample under atmospheric pressure while vaporizing or desorbing the sample component; and b) a second ionization section located in an area through which gaseous molecules containing ions produced by the first ionization section travel to the ion introduction opening, the second ionization section including a needle electrode with a tip portion having a curved surface, the ion introduction opening being formed within another electrode, an ionization condition regulator for adjusting a position and/or an angle of the needle electrode relative to the other electrode within which the ion introduction opening is formed, and a voltage supplier for applying a voltage to the needle electrode, wherein the second ionization section generates a corona discharge by applying the voltage from the voltage supplier to the needle electrode irrespective of the position and/or the angle of the needle electrode relative to the ion introduction opening, the corona discharge between the needle electrode and the other electrode producing a reactant ion by ionizing an atmospheric component or solvent molecule, and the reactant ion ionizing a sample molecule by reacting with the sample molecule. 2. The ionizer according to claim 1 , wherein: the voltage supplier is capable of adjusting the voltage, and the ionizer adjusts the position and/or the angle of the needle electrode relative to the ion introduction opening by the ionization condition regulator as well as the voltage applied from the voltage supplier to the needle electrode, so that a controlled amount of ions derived from a specific component in the sample are allowed to pass through the ion introduction opening. 3. The ionizer according to claim 1 , wherein: the first ionization section performs an ionization by an ambient ionization method. 4. The ionizer according to claim 3 , wherein: the first ionization section performs an ionization by a real-time direct ionization method. 5. The ionizer according to claim 4 , wherein: the position of the needle electrode relative to the ion introduction opening is determined so that a sufficient potential gradient for guiding the reactant ion generated by the corona discharge to the ion introduction opening is formed between the needle electrode and the ion introduction opening. 6. The ionizer according to claim 4 , wherein: the first ionization section includes a nozzle for spouting gas containing an excited species for the ionization by the real time direct ionization method, and the position of the needle electrode relative to an exit end of the nozzle is determined so that the gas released from the exit end of the nozzle turns into plasma due to an action of the corona discharge from the needle electrode, forming a plasma jet extending from the exit end of the nozzle into a vicinity of the needle electrode. 7. The ionizer according to claim 6 , wherein: a central axis of a gas stream spouted from the nozzle and a central axis of the ion introduction opening are arranged in an off-axis or deflected-axis form. 8. A mass spectrometer comprising, as an ion source, an ionizer for producing a sample-derived ion under atmospheric pressure and for introducing the ion through an ion introduction opening into a subsequent section maintained at a lower gas pressure, the ionizer including: a) a first ionization section for ionizing a sample component in a solid or liquid sample under atmospheric pressure while vaporizing or desorbing the sample component; and b) a second ionization section located in an area through which gaseous molecules containing ions produced by the first ionization section travel to the ion introduction opening, the second ionization section including a needle electrode with a tip portion having a curved surface, the ion introduction opening being formed within another electrode, an ionization condition regulator for adjusting a position and/or an angle of the needle electrode relative to the ion introduction opening, and a voltage supplier for applying a voltage to the needle electrode, wherein the second ionization section generates a corona discharge between the needle electrode and the other electrode by applying the voltage from the voltage supplier to the needle electrode irrespective of the position and/or the angle of the needle electrode relative to the other electrode within which the ion introduction opening is formed, the corona discharge producing a reactant ion by ionizing an atmospheric component or solvent molecule, and the reactant ion ionizing a sample molecule by reacting with the sample molecule. 9. The mass spectrometer according to claim 8 , wherein: the voltage supplier is capable of adjusting the voltage, and the ionizer adjusts the position and/or the angle of the needle electrode relative to the ion introduction opening by the ionization condition regulator as well as the voltage applied from the voltage supplier to the needle electrode, so that a controlled amount of ions derived from a specific component in the sample are allowed to pass through the ion introduction opening. 10. The mass spectrometer according to claim 8 , wherein: the first ionization section performs an ionization by an ambient ionization method. 11. The mass spectrometer according to claim 10 , wherein: the first ionization section performs an ionization by a real-time direct ionization method. 12. The mass spectrometer according to claim 11 , wherein: the position of the needle electrode relative to the ion introduction opening is determined so that a sufficient potential gradient for guiding the reactant ion generated by the corona discharge to the ion introduction opening is formed between the needle electrode and the ion introduction opening. 13. The mass spectrometer according to claim 11 , wherein: the first ionization section includes a nozzle for spouting gas containing an excited species for the ionization by the real time direct ionization method, and the position of the needle electrode relative to an exit end of the nozzle is determined so that the gas released from the exit end of the nozzle turns into plasma due to an action of the corona discharge from the needle electrode, forming a plasma jet extending from the exit end of the nozzle into a vicinity of the needle electrode. 14. The mass spectrometer according to claim 13 , wherein: a central axis of a gas stream spouted from the nozzle and a central axis of the ion introduction opening are arranged in an off-axis or deflected-axis form.