Femtosecond laser apparatus using laser diode optical pumping module
| Title: | Femtosecond laser apparatus using laser diode optical pumping module |
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| Patent Number: | 8,594,141 |
| Publication Date: | November 26, 2013 |
| Appl. No: | 13/562045 |
| Application Filed: | July 30, 2012 |
| Abstract: | The present invention provides a femtosecond laser apparatus using laser diode optical pumping. To provide a stable mode locking and improve power stability and beam stability in an ultrafast laser such as a femtosecond laser, optical mounts which have mounted thereon optical parts of a diode pumping unit are mechanically engaged using bars of low thermal expansion coefficients and form a pumping module, and the pumping module is maximally separated from a laser platform or case. |
| Inventors: | Kim, Guang Hoon (Busan, KR); Kang, Uk (Seoul, KR); Yang, Ju Hee (Seoul, KR); Sall, Elena (Seoul, KR); Chizhov, Sergey (Seoul, KR); Kulik, Andrey (Seoul, KR) |
| Assignees: | Korea Electrotechnology Research Institute (Changwon, KR) |
| Claim: | 1. A femtosecond laser apparatus using a laser diode optical pumping module, the femtosecond laser apparatus comprising: a laser diode for pumping a light source; a half-wave plate for adjusting polarizing directions of pumping light sources arranged in sequence; a collimating lens and a focusing lens for effectively applying an output beam of the laser diode to a laser crystal and improving mode coupling; the laser crystal for focusing the pumping light sources; and dichroic mirrors disposed in front of and behind the laser crystal to reflect a laser beam and transmit the pumping light sources therethrough, wherein the half-wave plate, the collimating lens, the focusing lens, and the dichroic mirrors are integrated as one piece in the form of an optical pumping module through mechanical engagement, such that the optical pumping module is installed in a way to be separated from a laser platform. |
| Claim: | 2. The femtosecond laser apparatus of claim 1 , wherein the optical pumping module comprises: mounts for mounting the half-wave plate, the collimating lens, the focusing lens, and the dichroic mirrors thereon, respectively; a plurality of module coupling rods for coupling the mounts in an integrated manner by horizontally penetrating the mounts; and at least one module coupler installed on the laser platform and engaged with the module coupling rods to support the module coupling rods. |
| Claim: | 3. The femtosecond laser apparatus of claim 1 , further comprising an auxiliary adaptor coupled to the module coupling rods at an end opposite to the half-wave plate to globally stabilize the optical pumping module in association with asymmetric arrangement of the optical pumping module. |
| Claim: | 4. The femtosecond laser apparatus of claim 1 , wherein the laser crystal is installed directly on the laser platform by a laser crystal mount. |
| Claim: | 5. The femtosecond laser apparatus of claim 1 , further comprising a reflected-beam blocker positioned behind a rear end side of the half-wave plate and installed on the laser platform to prevent the mount having the half-wave plate mounted thereon from being heated by a high-brightness beam reflected by the dichroic mirrors. |
| Claim: | 6. The femtosecond laser apparatus of claim 1 , wherein each of the plurality of module coupling rods is formed of one of invar, super invar, and kovar which have low thermal expansion coefficients. |
| Claim: | 7. The femtosecond laser apparatus of claim 1 , further comprising an optical fiber which is connected between the laser diode and the half-wave plate and whose end portion is supported by an optical fiber mount coupled on the module coupling rods, and the optical fiber is formed of an optical fiber which has a length of 80-120 mm, a core diameter of 100-100 μm, and a numerical aperture of 0.11. |
| Claim: | 8. The femtosecond laser apparatus of claim 1 , wherein if two laser diodes are used, then one optical pumping unit forms an optical pumping module and two optical modules formed in this way are disposed at both sides of the laser crystal for use. |
| Current U.S. Class: | 372/18 |
| Patent References Cited: | 5212710 May 1993 Kaneda et al. 6697162 February 2004 Sakai et al. 2006/0120418 June 2006 Harter et al. 06-275889 September 1994 07-058377 March 1995 07-026085 May 1995 09-179155 July 1997 10-273124 October 1998 11-233855 August 1999 2001-108408 April 2001 2005-005627 January 2005 2006-256063 September 2006 1020100110109 October 2010 |
| Primary Examiner: | Park, Kinam |
| Attorney, Agent or Firm: | Patent Office of Dr. Chung Park |
| Accession Number: | edspgr.08594141 |
| Database: | USPTO Patent Grants |
| Language: | English |
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