Particulate sensor

What is claimed is: 1. A particulate sensor which includes an ion source configured for generating ions by corona discharge and a reference potential member disposed around the ion source and maintained at a reference potential, wherein ions generated by the corona discharge adhere to particulates contained in a gas under measurement so as to generate positively charged particulates, the reference potential member also serving as a collection electrode is maintained at a collection potential and collects floating ions which are some of the ions generated by the ion source that have not adhered to the particulates, and the particulate sensor detects particulates contained in a gas under measurement by means of a current signal corresponding to a charge amount of ions discharged from the sensor in the form of the positively charged particulates, wherein the ion source comprises a ceramic structure which includes: a ceramic laminate of a plurality of insulative ceramic layers, the ceramic laminate extending in a longitudinal direction and having a rear end side and a forward end side; and a discharge electrode member formed at the forward end side of the ceramic laminate having an inter-layer portion embedded between two of the ceramic layers of the ceramic laminate and an exposed portion extending from the inter-layer portion to a position outside the ceramic laminate, the discharge electrode member generating the corona discharge between the reference potential member and the exposed portion when a constant DC discharge potential is applied to the discharge electrode member, wherein the exposed portion of the discharge electrode member has one or a plurality of needle-shaped distal end portions which project into a space outside the ceramic laminate without contacting the ceramic laminate and which generate the corona discharge, and wherein the reference potential member comprises a tubular member which surrounds the forward end side of the ceramic laminate from a radially outer side, the tubular member including introduction holes for introducing the gas under measurement into a space within the tubular member and around the ceramic laminate and a discharge opening for discharging the introduced gas under measurement formed in a forward end side of the tubular member. 2. A particulate sensor as claimed in claim 1 , wherein the ceramic structure has a heater which is disposed in the ceramic laminate and heats the exposed portion of the discharge electrode member when energized. 3. A particulate sensor as claimed in claim 1 , wherein the ceramic structure has an auxiliary electrode portion which is maintained at an auxiliary potential and assists in collection of the floating ions by the collection electrode. 4. The particulate sensor as claimed in claim 3 , wherein the auxiliary electrode portion is disposed within the ceramic laminate and is located on a forward end side of the ceramic laminate in the longitudinal direction; the exposed portion of the discharge electrode member is disposed within the ceramic laminate and is located on a rear end side of the ceramic laminate in the longitudinal direction; and when the particulate sensor is in use, the gas under measurement flows around a portion of the ceramic laminate, the portion extending from the exposed portion to the auxiliary electrode portion, from the rear end side toward the forward end side in the longitudinal direction. 5. The particulate sensor as claimed in claim 1 , wherein the auxiliary electrode portion is disposed within the ceramic laminate and is located on a forward end side of the ceramic laminate in the longitudinal direction; the exposed portion of the discharge electrode member is disposed within the ceramic laminate and is located on a rear end side of the ceramic laminate in the longitudinal direction; and when the particulate sensor is in use, the gas under measurement flows around a portion of the ceramic laminate, the portion extending from the exposed portion to the auxiliary electrode portion, from the rear end side toward the forward end side in the longitudinal direction. 6. A particulate sensor as claimed in claim 4 , wherein the ceramic laminate includes: a first ceramic portion extending in the longitudinal direction and composed of a plurality of ceramic layers; and a second ceramic portion layered on the first ceramic portion, composed of one or a plurality of ceramic layers, and being shorter than the first ceramic portion in the longitudinal direction, a second forward end of the second ceramic portion which is an end of the second ceramic portion located on the forward end side in the longitudinal direction being offset toward the rear end side in the longitudinal direction from a first forward end of the first ceramic portion which is an end of the first ceramic portion located on the forward end side in the longitudinal direction, wherein the exposed portion of the discharge electrode member projects from the second forward end of the second ceramic portion; and the auxiliary electrode portion is provided in the first ceramic portion and is located on the forward end side in the longitudinal direction in relation to the second forward end of the second ceramic portion. 7. A particulate sensor as claimed in claim 5 , wherein the ceramic laminate includes: a first ceramic portion extending in the longitudinal direction and composed of a plurality of ceramic layers; and a second ceramic portion layered on the first ceramic portion, composed of one or a plurality of ceramic layers, and being shorter than the first ceramic portion in the longitudinal direction, a second forward end of the second ceramic portion which is an end of the second ceramic portion located on the forward end side in the longitudinal direction being offset toward the rear end side in the longitudinal direction from a first forward end of the first ceramic portion which is an end of the first ceramic portion located on the forward end side in the longitudinal direction, wherein the exposed portion of the discharge electrode member projects from the second forward end of the second ceramic portion; and the auxiliary electrode portion is provided in the first ceramic portion and is located on the forward end side in the longitudinal direction in relation to the second forward end of the second ceramic portion. 8. The particulate sensor as claimed in claim 1 , wherein the ceramic laminate has a plate-like shape and has two main faces; and the exposed portion of the discharge electrode member projects from an end surface of the ceramic laminate which connects the main faces of the ceramic laminate. 9. The particulate sensor as claimed in claim 2 , wherein the ceramic laminate has a plate-like shape and has two main faces; and the exposed portion of the discharge electrode member projects from an end surface of the ceramic laminate which connects the main faces of the ceramic laminate. 10. The particulate sensor as claimed in claim 1 , wherein the ceramic structure is formed by integral firing of its constituent members. 11. A particulate sensor which includes an ion source configured for generating ions by corona discharge and a reference potential member disposed around the ion source and maintained at a reference potential, wherein ions generated by the corona discharge adhere to particulates contained in a gas under measurement so as to generate positively charged particulates, the reference potential member also serving as a collection electrode is maintained at a collection potential and collects floating ions which are some of the ions generated by the ion source that have not adhered to the particulates,