Coherent light generators – Particular pumping means – Pumping with optical or radiant energy
Reexamination Certificate
2002-07-15
2003-12-09
Davie, James (Department: 2828)
Coherent light generators
Particular pumping means
Pumping with optical or radiant energy
C372S036000
Reexamination Certificate
active
06661827
ABSTRACT:
BACKGROUND TO THE INVENTION
Solid state lasers are those having a solid state laser rod as a central core, the laser rod being subjected to optical pumping provided by semiconductor laser diodes. The solid state laser rod is typically an insulating crystal grown with a small percentage of impurity atoms. The insulating crystal is typically yittrium aluminium garnet (YAG) and the impurities are typically neodymium (ND). The wavelength of the laser diode depends upon the size of the bandgap which can be controlled by the composition and the temperature of the laser rod.
The use of laser diodes to form a pump light source for a solid-state laser has been known for some time. Typically, laser diodes are disposed in the form of a laser bar which can be disposed parallel to the longitudinal axis of a, typically, cylindrical laser rod. There are inherent problems with this form of light source. In particular, the individual laser diodes can be subjected to excessive localised heating of one or more facets which can lead to their catastrophic optical failure. This therefore limits the output power which can be emitted from each laser bar and thus the output of the solid state laser.
It may be possible to increase the number of laser diode bars in order to increase the output power but this also results in increased localised heating. Furthermore, typical linear package designs limit the maximum number of laser diode bars and therefore the maximum possible output power.
It has been known to use optical elements to focus the emitted beam from the laser diode on to the solid state laser rod but the absorption (by the focussing means) of the emitted radiation leads to reduced pumping efficiency.
Pumping arrangements can be categorised into three forms: transverse, longitudinal and radial. Longitudinal pumping does not permit sufficient power to be directed to the laser rod for any useful output to be gained. Transverse and radial pumping typically suffers from the problems described above.
U.S. Pat. No. 5,216,688 discloses a pumping module in which individual laser diodes are mounted in an annular ring which can be placed around a central laser rod. In order to direct energy over any significant length of laser rod, it is necessary to use a significant number of these individual rings such that the overall construction of the solid state laser is complex and involves numerous individual parts. The complexity is further increased in that each ring is provided with an individual cooling channel for cooling the module.
U.S. Pat. No. 5,521,936 discloses a solid state laser in which a number of laser diodes are mounted between individual ring segments which, in turn, surround a cooling tube in which the laser rod is located. Cooling fluid is caused to flow between the laser rod and the cooling tube. However, the power directed by the laser diodes to the laser rod is restricted by the provision of an additional barrier, i.e. the cooling tube, between the diodes and the laser rod, thus reducing the efficiency of this device.
SUMMARY OF THE INVENTION
According to one aspect of the present invention, there is provided a pumping module for use in a solid state laser, the module comprising:
an annular array of laser diode segments forming a passage, each segment comprising an extended body supporting a laser diode array that extends along the longitudinal axis of the segment for directing light into the passage from an inner surface of the annular array, wherein adjacent side faces of any two segments in the annular array are in sealing engagement.
Thus, the present invention permits a greater number of laser diodes to be directed towards the laser rod and, as they are evenly spaced around the rod, the problems associated with localised heating of the laser rod can be reduced.
Each segment may have the cross-section of the sector of an annulus, although other cross-sections, for example trapezoidal, are possible.
Preferably, each laser diode segment comprises an anode and a cathode, between which the at least one laser diode bar is mounted. In this arrangement, it is preferable for the anode of one segment to be adjacent to the cathode of an a joining segment in order that there is a continuous electrical current path through the pumping module.
Preferably, the inner faces of the array of annular segments form a continuous surface such that, in use, a coolant can flow between the laser rod and the segments to reduce further the likelihood of localised heating. In other words, the cooling efficiency is greatly improved. The smooth continuous inner surface of the array of segments ensures that the flow of coolant is lamina. Outer faces of the array of annular segments may also be continuous and additional cooling means may be provided to the outer faces.
The close packing radial arrangement permits greater numbers of laser diode arrays to be used and this results in higher power being directed to the laser rod with a better uniformity. In general, the overall diameter of the pumping module, and therefore the solid state laser is smaller.
The inner face of each segment may be coated with diamond-like-carbon (DLC) for passivation which results in higher thermal conductivity between the pumping module and the coolant, thus leading to increased cooling of the laser rod. This coating also has a high transparency which will not effect the power transferred from the module to the laser rod.
A further advantage of the present invention is that individual pumping modules may be stacked to increase the pumping power to a laser rod. The use of conductors as the segments, i.e. the anode and the cathode, allows a series of connection of the laser bars and does not require contact soldering or wire bonding.
The pumping module may also be provided with an outer sleeve for surrounding the array of segments. Preferably the outer sleeve is heated, prior to placing it over the array of segments such that, having expanded on heating, it cools to clamp the segments together. The sleeve can also be used to clamp a series of arrays of segments which are arranged over the whole length of a laser rod.
Preferably, the inner faces of the segments, forming a smooth cylindrical surface, allow internal reflection of the light emitted by the laser bars. In this way, the efficiency of the device is greatly increased.
The outer face of the segment may also form a smooth continuous surface for engagement with the outer sleeve.
It is preferable that there are an odd number of sections in each array in order that no laser diode bar is directed exactly towards another one opposite to it.
According to another aspect of the present invention, there is provided a pumping module for use in a solid state laser, the module comprising an annular array of circumferentially spaced laser diode bars forming a passage, wherein adjacent side faces of any two laser diode bars are in sealing engagement.
REFERENCES:
patent: 3683296 (1972-08-01), Scalise
patent: 5033058 (1991-07-01), Cabaret et al.
patent: 5040187 (1991-08-01), Karpinski
patent: 5128951 (1992-07-01), Karpinski
patent: 5216688 (1993-06-01), Kortz et al.
patent: 5521936 (1996-05-01), Irwin
patent: 5636239 (1997-06-01), Bruesselbach et al.
patent: 5978407 (1999-11-01), Chang et al.
patent: 0932227 (1999-07-01), None
patent: 2783363 (2000-03-01), None
Patent Abstracts of Japan, document No. JP 02130882.
Review Article “Laser Diode Pumped Solid State Lasers”, Hughes et al., J. Phys. D: Appl. Phys. 25, 1992, pp. 563-586.
Chan Yuen Chuen
Lam Yee Loy
Tam Siu Chung
Davie James
Nanyang Technological University
Perman & Green LLP
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