Microparticle sorting device and method of optimizing fluid stream therein

The invention claimed is: 1. A microparticle sorting device comprising: a voltage supply unit that supplies a driving voltage to a vibratory element that applies vibration to an orifice that produces a fluid stream; an image sensor that acquires an image of droplets ejected from the orifice at a position where fluid exiting the orifice breaks into droplets; and a controller configured to control the driving voltage based on a length of a satellite droplet positioned between the fluid and a microparticle-containing droplet immediately after dividing off from the fluid, and a distance between the microparticle-containing droplet and the fluid. 2. The microparticle sorting device according to claim 1 , wherein the controller controls the driving voltage such that the length along the travel direction becomes a designated length in the image. 3. The microparticle sorting device according to claim 2 , wherein the designated length is 30% to 70% of the distance between the microparticle-containing droplet and the fluid. 4. The microparticle sorting device according to claim 1 , wherein the orifice is formed on a replaceable microchip. 5. A method of optimizing a fluid stream in a microparticle sorting device, comprising: acquiring an image of droplets ejected from an orifice to which vibration is applied by a vibratory element at a position where fluid exiting the orifice breaks into droplets; and controlling a driving voltage of the vibratory element based on a length of a satellite droplet positioned between the fluid and a microparticle-containing droplet immediately after dividing off from the fluid, and a distance between the microparticle-containing droplet and the fluid. 6. The method of optimizing a fluid stream according to claim 5 , wherein controlling the driving voltage includes controlling the driving voltage such that the length along the travel direction becomes a designated length in the image. 7. The method of optimizing a fluid stream according to claim 6 , wherein the designated length is 30% to 70% of the distance between the microparticle-containing droplet and the fluid. 8. The method of optimizing a fluid stream according to claim 5 , wherein the orifice is formed on a replaceable microchip. 9. The method of optimizing a fluid stream according to claim 5 , wherein acquiring an image of droplets comprises acquiring a plurality of images of droplets with different driving voltages and wherein controlling the driving voltage comprises selecting the driving voltage for which a ratio of the length along the travel direction to the distance between the microparticle containing droplet and the fluid is in a prescribed range, and applying the selected driving voltage to the vibratory element.