KR0151001B1 - Optical pick-up using vertical cavity surface emitting laser - Google Patents

Abstract

Disclosed is an optical pickup employing a surface-emitting laser that emits light in a stacking direction as a light source. The disclosed optical pickup is formed between a substrate, a light source formed of a surface-emission laser that is laminated on the substrate, irradiates guided emission light in the stacking direction, and irradiates spontaneously emitted light to its side, and is disposed between the light source and the optical disk. An objective lens for focusing the induced emission light emitted from the light source to form an optical spot on the optical disk, first light detecting means provided on the substrate and detecting information signals and error signals from the light reflected from the optical disk, And a second light detecting means provided at a periphery to detect a degree of the emitted light amount of the guided emission light emitted from the light source for receiving at least a portion of the light emitted from the light source.

Description

Optical pickup that adopted surface emitting laser

1 is a schematic diagram showing an embodiment of an optical pickup employing a conventional surface emitting laser.

2 is a schematic view showing an embodiment of an optical pickup employing a surface-emitting laser according to the present invention.

3 is a schematic view showing another embodiment of the optical pickup employing the surface-emitting laser according to the present invention.

* Explanation of symbols for main parts of the drawings

21, 41: substrate 23, 43: light source

25, 45: hologram element 27, 47: objective lens

29, 49: optical disk 30a, 50a: attendance

30b, 50b: reflected light 31, 51: second light detecting means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup employing a surface emitting laser, and more particularly, to an optical pickup employing a surface emitting laser in which a monitor photodetector used for controlling the output light amount of a light source is improved.

In general, a veritcal cavity surface emittint laser (VCSEL) employed as a light pick-up light source emits light in a vertical direction with respect to a stack made of a semiconductor material stacked on a substrate. Light emitted in this vertical direction is close to circular light and has a high light density. Therefore, there is an advantage in that sensitivity can be improved and error occurrence can be reduced when reading information recorded on an optical disc that is an information recording and reproducing medium. However, since one surface of the emitting surface of the surface-emitting laser employed as the light source is fixed on the substrate, it is very difficult to provide a monitor photodetector for controlling the amount of light output from this light source.

Conventionally, as shown in FIG. 1, a monitor photodetector is provided to control the output of light generated from the light source.

FIG. 1 is a schematic diagram showing an optical pickup employing a conventional surface emitting laser. Referring to this figure, an optical pickup employing a conventional surface emitting laser will be described below.

A substrate 1, a light source 3 that generates light, and emits light; and incident light 10a converging so as to form spots on the disk 11, which is an optical recording / reproducing medium, and output light 10b reflected from the recording surface of the optical disk. ) Is converted into parallel light, the respective optical detectors 13 and 15 employed to detect the error signal and control the light source, and the light reflected from the disk 11 A hologram element 5 for changing the optical path so as to receive light from the fields 13 and 15, and a beam splitter 7 for splitting the light.

The light source 3 has a stacked structure of semiconductor layers having at least one P layer and at least one N layer, and an electrode layer is formed on the top and bottom surfaces thereof, and a forward bias voltage is applied to the electrode layer. It is a vertical cavity surfacd emitting laser (VISEL) adapted to emit light vertically.

In addition, the hologram element 5 has a specific pattern formed on the surface thereof so that the light 10 incident from the light source side is transmitted straight through, and the light reflected from the reflecting surface of the optical disk is transmitted at a predetermined angle with respect to the optical axis. It is supposed to. Accordingly, a photodetector 13 is formed on the same substrate 1 as the light source 3 so as to receive the light reflected from the optical disk and diffracted at a predetermined angle through the hologram element to detect a focus and tracking error signal. Can be installed on

The monitor photodetector 15 provided as a means for controlling the amount of light emitted from the light source 3 can only use light emitted in one plane due to the characteristics of the surface-emitting laser employed as the light source 3. The beam splitter 7 is provided between the hologram element 5 and the objective lens 9 without being provided on the same substrate 1 as in 3), and the beam splitter 7 emits light at a constant ratio. It was provided on the path of one light 10 of the e-beam sputter 7 so that it could divide and receive some of this divided light.

The conventional optical pickup employing the surface-emission laser made as described above has a monitor photodetector at a separate position in order to receive the amount of light emitted from the light source, thereby degrading assembly and increasing the number of parts and increasing the cost. It became.

Accordingly, the present invention has been made to overcome the above problems, by attaching a monitor photodetector on the same substrate as the light source. The purpose is to improve the assembly and reduce the cost.

In order to achieve the above object, the first feature of the invention is.

A light emitting laser comprising a light source made of a surface emitting laser to emit light in the vertical direction, an objective lens for connecting the light emitted from the light source to the optical disk, and a first light detecting means for detecting a signal from the reflected light of the optical disk In optical pickup which adopted

The second light detecting means is provided around the light source to receive side light emitted to the side of the light source and to adjust the amount of emitted light of the light source from the side light.

In order to achieve the above object, a second feature of the present invention is.

A surface light emitting device comprising a light source of a surface-emitting laser adapted to emit light in a vertical direction, an objective lens for focusing the light emitted from the light source onto the optical disk, and first light detecting means for detecting a signal from the reflected light of the optical disk In the optical pickup employing a laser,

The second light detecting means is provided on the upper surface of the light source to absorb a predetermined amount of light emitted from the light source in a vertical direction, and to adjust the degree of emission of the light source from the absorbed light. .

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2.

The optical pickup employing this surface-emitting laser is a light source for generating incident light 30a for reproducing information recorded on a substrate 21 and a disk 29 provided on the substrate 21, which is an optical recording / reproducing medium. (23) and the light emitted from the light source 23 on the path of the light 50 between the light source 23 and the optical disk 29 converge to the focal limit to spot on the disk 29 An objective lens 27 having a positive refractive power so as to form a light and a first photodetector means 33 for detecting a focus error signal and a tracking error signal included in the signal detected by the disk 29 and detecting a reproduction signal. And second light detecting means 32 for receiving a predetermined ratio of light emitted from the light source 23 in order to control the amount of light emitted from the light source 23.

The surface-emitting laser employed as the light source 23 is formed on a semiconductor substrate 21 such as N-type GaAs, and includes at least one N layer and at least one P layer, on one layer. The other layers are stacked to form a stack. This stack emits light by a quantum-well active region formed between an N-type distributed Bragg reflector (hereinafter referred to as DBR) stack and a P-type DBR stack. The light source 23 is biased forward by a bias circuit including a power supply, and emits light in a direction perpendicular to the stacking surface as shown. In addition, the self-emission 40 which is weakly directional as compared to the vertical direction also emits from the side surface.

The first light detecting means 33 receives the light 30b reflected from the recording surface of the optical disc 29 to detect a focusing error signal and a tracking error signal, as well as to receive a reproduction signal. On the same substrate 21 as that.

To this end, a hologram element 25 is provided on an optical path between the light source 23 and the objective lens 27. The hologram element 25 is designed so that the refractive index of the light incident on the other side and the refractive index of the light incident on the other side are different. Therefore, the light emitted from the light source 23 and reflected from the disk 29 is prevented from being re-entered into the light source 23, and reflected from the disk 29 to pass through the objective lens 27. Light converges on a portion of the substrate. Of course, the first light detecting means 33 is provided at a position where the convergent light can be received.

The second light detecting means 31 is a monitor light detector used to adjust the amount of vertical light emitted from the light source 23, wherein the side surface self-emission 40 is proportional to the amount of light of the vertical light 30a. The feature was used. To this end, the second light detecting means 31 is formed on the same substrate 21 as the light source 23 so as to surround the light source 23. The second light detecting means 31 is a surface emitting laser used as the light source 23. By applying a voltage to both electrodes of the laser or applying a reverse bias voltage, light incident on the side and top surfaces thereof is received. Since the second light detecting means 31 is positioned around the side of the light source 23, the second light detecting means 31 absorbs and receives side light emitted from the side.

The structure of the second detection means 31 of the surface-emitting laser has a cylindrical shape in which the hollow part is provided so that the light source 23 is located, or a polygon having a plurality of corners on the outer surface thereof in order to make maximum use of emission of absorbed light. Can be achieved.

Therefore, an embodiment of the present invention is a very useful invention that can simplify the configuration of the optical system by providing the first and second photodetectors on the same substrate as the light source, thereby contributing to cost reduction and productivity improvement.

In addition, another embodiment of the present invention will be described in detail with reference to FIG. 3.

A light source 43 for generating incident light for reproducing information recorded on the disk 49 which is provided on the substrate 41, and which is provided on the substrate 41, and the light source 43; An objective lens 47 positioned on a path of light 50 between the optical disks 49 and converging the light 50a emitted from the light source 43 to a focus limit to form a spot on the disk 49. ), First light detecting means 53 for detecting a focus error signal and a tracking error signal included in the signal detected by the disk 49 and detecting a reproduction signal, and the amount of light emitted from the light source 43. The second light detecting means 51 receives light of a certain ratio of the emitted light amount for adjustment.

The second light detecting means 53 is coupled on the same substrate 51 as the light source 43 as described through the first embodiment mentioned above, and the light source 43 and the optical disk 49 ), A hologram element 45 is employed to receive light reflected from the recording surface of the disk 49.

The monitor second light detecting means 51 for monitoring the amount of light emitted from the light source 43 is coupled to the upper surface of the light source 43. The second light detecting means 51 absorbs and receives a certain ratio of light from the vertical light emitted from the light source, and adjusts the amount of emitted light of the light source 43 from the received light.

Usually, the second light detecting means 51 is made of a surface-emitting laser (VCSEL), and absorbs a part of the light emitted from the light source 43 by not applying power to the two electrode layers or applying reverse bias power.

In addition, the second light detecting means 51 may be formed by employing light receiving elements having various shapes, and may absorb a certain ratio of light emitted vertically. If necessary, the light source may be spaced apart from the upper surface of the light source by a predetermined height. Of course, in this case, the side light emitted to the side of the light source was not utilized.

Therefore, it is very useful to appropriately control the amount of light emitted from the light source, to reduce the number of parts and to reduce the volume.

The optical pickup employing the surface-emitting laser made as described above is capable of controlling the amount of light emitted from the light source close to the circular light, and efficiently reducing the number of parts and simplifying the assembly process. It is a very useful invention such that the size can be reduced.

Claims (9)

A light emitting laser comprising a light source made of a surface emitting laser to emit light in the vertical direction, an objective lens for focusing the light emitted from the light source on the optical disk, and a first light detecting means for detecting a signal from the reflected light of the optical disk. In optical pickup which adopted And employing a surface-emitting laser, the second light detecting means being provided around the light source to receive side light emitted to the side of the light source and to adjust the amount of emitted light of the light source from the side light. Optical pickup. The optical pickup of claim 1, wherein the second photodetector comprises a cylindrical photodetector having a hollow portion accommodating the light source. 3. The surface emitting laser according to claim 2 or 2, wherein the second photodetecting means is a surface emitting laser which is adapted to absorb light emitted from the light source by applying a reverse bias voltage to the positive electrode plate. Optical pickup. The surface emitting laser according to claim 1 or 2, wherein the second photodetecting means is a surface emitting laser which does not apply a voltage to the positive electrode plate so as to absorb a part of the light emitted from the light source. Optical pickup. The optical pickup of claim 1, further comprising a hologram element disposed between the light source and the objective lens to diffract the reflected light toward the first light detecting means. A surface light emitting device comprising a light source of a surface-emitting laser adapted to emit light in a vertical direction, an objective lens for focusing the light emitted from the light source onto the optical disk, and first light detecting means for detecting a signal from the reflected light of the optical disk In an optical pickup employing a laser, the optical pickup is provided on an upper surface of the light source and absorbs a predetermined amount of light from the light source in a vertical direction, and adjusts the degree of emission of the light source from the absorbed light. 2. Optical pickup employing a surface-emitting laser, characterized in that two light detecting means are provided. 7. The optical pickup according to claim 6, wherein the second light detecting means is a decay laser that absorbs light emitted from the light source by applying a reverse bias voltage to both electrode plates. . 7. The optical pickup according to claim 6, wherein the second light detecting means is a surface emitting laser that does not apply a voltage to the positive electrode plate so as to absorb a part of the light emitted from the light source. The surface emitting laser according to any one of claims 6 to 8, further comprising a hologram element disposed between the light source and the objective lens to diffract the reflected light toward the first light detecting means. Optical pickup that adopted.