Method to detect and remove gas bubbles from molten substrate to prevent hollow fiber formation

What is claimed is: 1. A method for removing bubbles from a molten substrate, comprising: transmitting ultrasonic energy into a downtube through which a molten substrate is flowing, wherein the molten substrate is flowing from a first end of the downtube to a second end of the downtube; detecting a characteristic of the ultrasonic energy; and upon detecting a predetermined change to the characteristic of the ultrasonic energy, diverting a slug of molten substrate from the flow of molten substrate in the downtube to a duct, wherein the duct is in communication with the downtube at a location between the first and second ends. 2. The method of claim 1 , wherein the slug of molten substrate diverted from the downtube includes a volume of the molten substrate in which the predetermined change is detected. 3. The method of claim 1 , wherein the characteristic of the ultrasonic energy is an amount of time from transmission of the ultrasonic energy to detection of the ultrasonic energy, and wherein the change to the characteristic is a decrease in the amount of time relative to an expected amount of time. 4. The method of claim 1 , further comprising returning the slug of molten substrate to a furnace. 5. The method of claim 1 , further comprising: transmitting second ultrasonic energy into the duct; detecting a characteristic of the second ultrasonic energy; and upon detecting a change to the characteristic of the second ultrasonic energy, stopping diverting the slug of molten substrate from the downtube. 6. A method for removing bubbles from molten glass, comprising: transmitting ultrasonic energy into a downtube through which molten glass is flowing; detecting a characteristic of the ultrasonic energy; and upon detecting a predetermined change to the characteristic of the ultrasonic energy, diverting a slug of molten glass from the flow of molten glass in the downtube to a duct; transmitting second ultrasonic energy into the duct; detecting a characteristic of the second ultrasonic energy; and upon detecting a change to the characteristic of the second ultrasonic energy, stopping diverting the slug of molten glass from the downtube. 7. The method of claim 6 , wherein the slug of molten glass diverted from the downtube includes a volume of the molten glass in which the predetermined change is detected. 8. The method of claim 6 , wherein the characteristic of the ultrasonic energy is an amount of time from transmission of the ultrasonic energy to detection of the ultrasonic energy, and wherein the change to the characteristic is a decrease in the amount of time relative to an expected amount of time. 9. The method of claim 6 , further comprising returning the slug of molten glass to a furnace.