Method for polishing end faces of plastic optical fiber

The invention claimed is: 1. A method for polishing an end face of a plastic optical fiber that is surrounded by a ferrule made of metal or ceramic, comprising: (a) concurrently abrading an end face of the plastic optical fiber and an end face of the ferrule for a first time duration using a first abrasive film comprising abrasive particles having particle sizes in a first range having upper and lower bounds; (b) after the first time duration has expired, abrading the end faces for a second time duration using a second abrasive film comprising abrasive particles having particle sizes in a second range having upper and lower bounds, wherein the upper bound of the second range is less than the lower bound of the first range; and (c) after the second time duration has expired, abrading the end faces for a third time duration using a suspension comprising abrasive particles suspended in water on a surface of a polishing pad made of resilient material, wherein the suspended abrasive particles have particle sizes in a third range having upper and lower bounds, wherein the upper bound of the first range is less than the lower bound of the second range. 2. The method as recited in claim 1 , further comprising spreading the suspension over a surface of a polishing pad that is supported by a rotatable platen, wherein the third range, the third time duration, a rotational speed of the rotatable platen, and a pressure exerted on the end face of the plastic optical fiber by the polishing pad are selected so that a depth of recession of the end face of the plastic optical fiber relative to an apex of the end face of the ferrule is at least 40 microns upon completion of step (c). 3. The method as recited in claim 2 , wherein the polishing pad is made of polyurethane. 4. The method as recited in claim 1 , wherein the first duration is greater than the second duration, and the third duration is greater than the first duration. 5. The method as recited in claim 1 , wherein at least some of the abrasive particles of the first abrasive film comprise abrasive particles having a size equal to 9 microns, at least some of the abrasive particles of the second abrasive film comprise abrasive particles having a size equal to 3 microns, and at least some of the abrasive particles in the suspension comprise particles having a size equal to 1 micron. 6. The method as recited in claim 5 , wherein the abrasive particles of the first and second abrasive films and in the suspension are made of aluminum oxide. 7. The method as recited in claim 1 , wherein at least some of the abrasive particles in the suspension comprise aluminum oxide particles having a size equal to 1 micron. 8. The method as recited in claim 1 , wherein the third pressure is less than the first pressure and less than the second pressure. 9. The method as recited in claim 1 , wherein step (a) comprises rotating the first abrasive film at a first speed while the end faces are stationary, step (b) comprises rotating the second abrasive film at a second speed while the end faces are stationary, and step (c) comprises rotating the polishing pad at a third speed while the end faces are stationary, the first speed being greater than the second speed, and the third speed being less than the second speed. 10. A method for polishing an end face of a plastic optical fiber that is surrounded by a ferrule made of metal or ceramic, comprising: (a) pressing an end face of the plastic optical fiber and an end face of the ferrule against a first abrasive film with a first pressure, wherein the first abrasive film comprises abrasive particles having particle sizes in a first range; (b) moving the first abrasive film relative to the end faces for a first time duration while the end faces are being pressed against the first abrasive film with the first pressure; (c) separating the end faces from the first abrasive film after the first time duration has expired; (d) pressing the end faces against a second abrasive film with a second pressure, wherein the second abrasive film comprises particles having particle sizes in a second range having an upper bound which is less than a lower bound of the first range; (e) moving the second abrasive film relative to the end faces for a second time duration while the end faces are being pressed against the second abrasive film with the second pressure; (f) separating the end faces from the second abrasive film after the second time duration has expired; (g) placing a suspension comprising abrasive particles suspended in water on a surface of a polishing pad made of resilient material, wherein the suspended abrasive particles have particle sizes in a third range having upper bound which is less than a lower bound of the second range; (h) pressing the end faces against the polishing pad with a third pressure which is less than the first pressure and less than the second pressure; and (i) moving the polishing pad relative to the end faces for a third time duration while the end faces are being pressed against the polishing pad with the third pressure. 11. The method as recited in claim 10 , wherein step (g) comprises spreading the suspension over a surface of a polishing pad that is supported by a rotatable platen, wherein the third range, the third time duration, a rotational speed of the rotatable platen, and a pressure exerted on the end face of the plastic optical fiber by the polishing pad are selected so that a depth of recession of the end face of the plastic optical fiber relative to an apex of the is at least 40 microns upon completion of step (c). 12. The method as recited in claim 11 , wherein the polishing pad is made of polyurethane. 13. The method as recited in claim 10 , wherein the first duration is greater than the second duration, and the third duration is greater than the first duration. 14. The method as recited in claim 10 , wherein at least some of the abrasive particles of the first abrasive film comprise abrasive particles having a size equal to 9 microns, at least some of the abrasive particles of the second abrasive film comprise abrasive particles having a size equal to 3 microns, and at least some of the abrasive particles in the suspension comprise abrasive particles having a size equal to 1 micron. 15. The method as recited in claim 10 , wherein step (b) comprises rotating the first abrasive film at a first speed while the end faces are stationary, step (e) comprises rotating the second abrasive film at a second speed while the end faces are stationary, and step (i) comprises rotating the polishing pad at a third speed while the end faces are stationary, the first speed being greater than the second speed, and the third speed being less than the second speed. 16. A fiber optic device comprising: a plastic optical fiber having a length and a polished end face; and a ferrule surrounding the plastic optical fiber along at least a portion of the length of the plastic optical fiber, the ferrule having a polished convex annular end face that defines an aperture, wherein the polished end face of the plastic optical fiber is disposed within the aperture, is recessed relative to an apex of the polished convex annular end face of the ferrule, and has a smoothness produced by abrasion using a suspension of abrasive particles applied on a surface of a polishing pad, and wherein a depth of recession of the end face of the plastic optical fiber relative to the apex of the polished convex annular end face of the ferrule is at least 40 microns. 17. The fiber optic device as recited in claim 16 , wherein the ab