Nebulizer, sample introduction unit, and analysis device

The invention claimed is: 1. A nebulizer comprising: a liquid supply tube having a first channel which allows a liquid to flow therethrough, and having, at an end thereof, a first outlet from which the liquid is ejected; and a gas supply tube surrounding the liquid supply tube with a gap interposed therebetween, having a second channel which allows a gas to flow therethrough, and having, at an end corresponding to the end, a second outlet from which the gas is ejected, the second channel being defined between an outer peripheral surface of the liquid supply tube and an inner peripheral surface of the gas supply tube, having a constriction portion located upstream of the first outlet, and having a channel area gradually increasing from the constriction portion to at least the first outlet of the liquid supply tube. 2. The nebulizer according to claim 1 , wherein the channel area of the second channel gradually decreases in an upstream-to-downstream direction, and the constriction portion is where the channel area is minimized. 3. The nebulizer according to claim 1 , wherein a diameter defined by the inner peripheral surface of the gas supply tube gradually increases from the constriction portion toward the second outlet. 4. The nebulizer according to claim 1 , wherein the second outlet of the gas supply tube is formed downstream of the first outlet of the liquid supply tube. 5. The nebulizer according to claim 1 , wherein the second outlet of the gas supply tube is formed at the same position as the first outlet of the liquid supply tube, relative to a longitudinal direction of the nebulizer. 6. The nebulizer according to claim 1 , wherein a diameter defined by an inner peripheral surface of the second outlet of the gas supply tube is larger than a diameter defined by an inner peripheral surface of the first outlet of the liquid supply tube. 7. The nebulizer according to claim 1 , wherein a diameter defined by the outer peripheral surface of the liquid supply tube gradually decreases toward the first outlet. 8. The nebulizer according to claim 1 , wherein a diameter defined by an inner peripheral surface of the liquid supply tube gradually decreases toward the first outlet. 9. The nebulizer according to claim 1 , wherein in a cross section along a longitudinal direction of the nebulizer, a tip end of the liquid supply tube at the first outlet is pointed downstream. 10. The nebulizer according to claim 1 , wherein in a cross section along a longitudinal direction of the nebulizer, a tip end of the liquid supply tube at the first outlet has a curved surface protruding downstream. 11. A sample introduction unit comprising: a nebulizer including a liquid supply tube having a first channel which allows a liquid to flow therethrough, and having, at an end thereof, a first outlet from which the liquid is ejected; and a gas supply tube surrounding the liquid supply tube with a gap interposed therebetween, having a second channel which allows a gas to flow therethrough, and having, at an end corresponding to the end, a second outlet from which the gas is ejected, the second channel being defined between an outer peripheral surface of the liquid supply tube and an inner peripheral surface of the gas supply tube, and having a constriction portion located upstream of the first outlet, and having a channel area gradually increasing from the constriction portion to at least the first outlet of the liquid supply tube; and an other gas supply tube surrounding the gas supply tube with an other gap interposed therebetween, the other gap serving as a third channel which allows an other gas to flow therethrough, the other gas supply tube being disposed coaxial with the liquid supply tube and the gas supply tube, and having, at an end corresponding to the end, a third outlet from which the other gas is ejected. 12. The sample introduction unit according to claim 11 , wherein the third outlet of the other gas supply tube is formed downstream of the second outlet of the gas supply tube. 13. The sample introduction unit according to claim 11 , wherein a diameter defined by an inner peripheral surface of the other gas supply tube gradually decreases from an upstream portion toward the third outlet, and a diameter defined by an inner peripheral surface of a tip end of the third outlet is equal to or larger than a diameter defined by an inner peripheral surface of a tip end of the second outlet of the gas supply tube. 14. The sample introduction unit according to claim 11 , wherein an inner peripheral surface of the other gas supply tube extends while defining a constant diameter from an upstream portion to the third outlet. 15. The sample introduction unit according to claim 11 , further comprising a gap member which has a helical shape, is wound around an outer peripheral surface of the gas supply tube, extends in a flow direction, and thereby provides the other gap. 16. An analysis device comprising: a sample introduction unit including a nebulizer that includes a liquid supply tube having a first channel which allows a liquid to flow therethrough, and having, at an end thereof, a first outlet from which the liquid is ejected, and a gas supply tube surrounding the liquid supply tube with a gap interposed therebetween, having a second channel which allows a gas to flow therethrough, and having, at an end corresponding to the end, a second outlet from which the gas is ejected, the second channel being defined between an outer peripheral surface of the liquid supply tube and an inner peripheral surface of the gas supply tube, and having a constriction portion located upstream of the first outlet, and an other gas supply tube surrounding the gas supply tube with an other gap interposed therebetween, the other gap serving as a third channel which allows an other gas to flow therethrough, the other gas supply tube being disposed coaxial with the liquid supply tube and the gas supply tube, and having, at an end corresponding to the end, a third outlet from which the other gas is ejected; a plasma generator generating a plasma and ionizing or atomizing, with the plasma, a sample formed into droplets and ejected by the nebulizer; and an analysis unit analyzing the atomized or ionized sample.