Radiant energy – Photocells; circuits and apparatus – Photocell controlled circuit
Reexamination Certificate
2000-04-25
2002-10-22
Kim, Robert H. (Department: 2882)
Radiant energy
Photocells; circuits and apparatus
Photocell controlled circuit
C250S2140RC, C257S431000
Reexamination Certificate
active
06469292
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application is related to Japanese patent application No. HEI 11(1999)-118973 filed on Apr. 27, 1999 whose priority is claimed under 35 USC §119, the disclosure of which is incorporated herein by reference in its entirety.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a photodetector and a method of driving the photodetector, and more particularly to a photodetector for a short wavelength (violet color) suitable used for an optical pickup and a method of driving the photodetector.
2. Description of the Related Art
In recent years, there has been a prospect that a violet semiconductor laser (wavelength &lgr;=approximately 400 nm) using a GaN based material or a violet laser using a SHG (secondary harmonic generation) element can practically be developed, and it has been expected that an optical memory can have a density increased by a reduction in a wavelength of a light source.
However, Nikkei Electronics 1998. 1.26 (No. 708) pp. 127-129 has described that the following problem arises in that a signal is reproduced from a recording mark which is made minute with a reduction in a wavelength of a light source, for example.
Referring to the description, it is hard to reproduce a signal because the sensitivity of a pin photodiode of Si which is a photodetector used in an optical pickup for an optical memory in addition to a decrease in a signal amount (caused by a reduction in a size of the recording mark). The cause includes (1) a decrease in the number of photons caused by a reduction in the wavelength of the light source, (2) a reduction in a quantum efficiency (Although a light absorption coefficient of Si to be the material of the photodetector is increased with a reduction in the wavelength so that a probability of absorption near a surface is increased, a generated carrier is recombined and easily dissipated because there are a large number of surface states near the surface), and the like.
As measures to improve a sensitivity with the short wavelength of the photodetector, an antireflection film is improved corresponding to a wavelength of a violet color or a thickness of an i layer having a pin type structure is regulated. In the pin photodiode having no amplifying function, however, a light receiving sensitivity has limitations as a matter of course. Under such a background, an increase in a density of an optical memory has needed a photodetector and an optical pickup which have an amplifying function that is capable of ensuring a light receiving sensitivity corresponding to a decrease in a signal amount and a reduction in the wavelength of the light source (violet color: wavelength &lgr;=approximately 400 nm) in addition to the conditions (1) a high speed operation (<10 nsec) and (2) a low operating voltage (<5 V) which are required in respect of a recording and reproducing speed and consumed power.
As the photodetector having the amplifying function, an avalanche photodiode has been well known. For example, Japanese Laid-Open Patent Publication No. Hei 9(1997)-265652 has described an optical pickup using the avalanche photodiode having the amplifying function which serves to cope with a reduction in a sensitivity of a photodetector for a short-wavelength light source having a violet color. However, the avalanche photodiode usually requires an operating voltage of 100 V or more,. Therefore, it is hard to use the avalanche diode as a photodetector for an optical memory.
On the other hand, Japanese Laid-Open Patent Publication No. Hei 10(1998)-261291 has described “an optical switching element using an insulator-metal transition generated by irradiating light on a manganese oxide”, which is not the photodetector such as the pin photodiode or the avalanche diode. According to this publication, a gold electrode is formed at an interval of 50 &mgr;m on a single crystal Pr
0.7
Ca
0.3
MnO
3
, and an insulator-metal transition is caused to greatly change an electric resistance when a YAG (yttrium-aluminum-garnet) laser beam is irradiated while applying a DC bias voltage of several V to the gold electrode. The insulator-metal transition caused by the light irradiation on the Pr
0.7
Ca
0.3
MnO
3
has also been described in detail n the document “Physical Review Letters Vol. 78, No. 22, (1997), pp. 4257-4260” and “Journal of the Physical Society of Japan Vol. 66, No. 11 (1997), pp. 3570 to 3576).
However, the use of the optical switching element as described above as a photodetector for an optical memory has a problem in respect of a response speed because (1) a relaxation time (a time required for an insulator-metal transition) is long, for example, several hundreds nsec to several &mgr;sec for the generation of the insulator-metal transition. Moreover, (2) since a bias voltage of at least several tens V or more is required for causing the insulator-metal transition by feeble reflected light (several &mgr;W) transmitted from a recording bit, there is a problem in respect of an operating voltage. Furthermore, since (3) a metal state is held even if the light irradiation is stopped after the complete transition to the metal state is carried out, it is hard to detect the presence of the recording bit.
SUMMARY OF THE INVENTION
In order to solve the above-mentioned problems, it is an object of the present invention to provide a photodetector having a light receiving sensitivity corresponding to a decrease in a signal amount with an increase in a density of an optical memory and a reduction in a wavelength of a light source (violet color: wavelength &lgr;=approximately 400 nm) by utilizing, as an amplifying function, an insulator-metal transition by light irradiation and capable of carrying out a high-speed and low-voltage operation suitable for a photodetector for the optical memory, a method of driving the photodetector and an optical pickup using the photodetector and the driving method thereof.
The present inventors have paid attention to the relationship of an arrangement between an electrode and a region (referred to as a complex excitation region) in a photoelectric conversion layer where a light irradiation region and a voltage application region are overlapped because of the generation of an insulator-metal transition in the complex excitation region and have found that the insulator-metal transition can be implemented at a high speed and a low voltage by properly setting the relationship of the arrangement.
The present invention provides a photodetector comprising: a photoelectric conversion layer for performing an insulator-metal transition by receiving light; and a pair of electrodes provided opposite to each other in contact with the photoelectric conversion layer, between which a voltage is applied, wherein the pair of electrodes are arranged on the photoelectric conversion layer such that a region of the photoelectric conversion layer which performs the insulator-metal transition and a region to which the voltage is applied through the pair of electrodes are substantially coincident with each other (overlapped almost wholly).
REFERENCES:
patent: 5030831 (1991-07-01), Coon et al.
patent: 5643369 (1997-07-01), Tanaka et al.
patent: 9-265652 (1997-10-01), None
patent: 10-261291 (1998-09-01), None
Miyano et al., “Photoindued Insulator to Metal transition in a Perovskite Maganite”, Jun. 2, 1997, Physical review letters, volumn 78, No. 22. The American Physical Society, pp.4257-4260.*
Nikkei Electronics, No. 708 (Jan. 26, 1998), pp. 127-135.
“Photoinduced Insulator-to-Metal Transition in a Perovskite Manganite,” K. Miyano, et al. Physical Review Letters, vol. 78, No. 22. The American Physical Society, Jun. 2, 1997, pp. 4257-4260.
“Spatial Properties of the Photoinduced Transition in Pr0.7Ca0.3MnO3”, T. Mori, et al. Journal of the Physical Society of Japan, vol. 66, No. 11, Nov. 11, 1997, pp. 3570-3576.
Kojima Kunio
Nakanishi Kenji
Ogimoto Yasushi
Conlin David G.
Dike Bronstein, Roberts & Cushman IP Group, Edwards & Angell, LL
Kim Robert H.
Sharp Kabushiki Kaisha
Song Hoon K.
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