Oscillation polarization mode selective semiconductor laser, light source apparatus and optical communication system using the laser

US 5,586,131 A
Filed: 12/05/1994
Issued: 12/17/1996
Est. Priority Date: 12/10/1993
Status: Expired due to Term

First Claim

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1. A distributed feedback semiconductor laser for oscillating by switching two polarization modes having different polarization planes, said laser comprising:

a substrate;

a light waveguide formed on said substrate, said waveguide at least partially including an active layer;

a diffraction grating formed around said waveguide, said waveguide and said grating being constructed such that minimum values of threshold gain in the polarization modes near a Bragg wavelength are approximately equal to each other; and

injecting means for injecting a modulation current for switching the two polarization modes into a portion of said waveguide.

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Abstract

A distributed feedback semiconductor laser selectively performs one of two oscillations in different polarization modes having different polarization planes. The laser includes a substrate, a light waveguide formed on the substrate, which at least partially includes an active layer, a diffraction grating formed around the waveguide, and an injecting unit for injecting a modulation current into a portion of the waveguide. The waveguide and the grating are constructed such that oscillation wavelengths of the polarization modes are different from each other and minimum values of threshold gain in the polarization modes near the Bragg wavelength are approximately equal to each other. The semiconductor laser can be driven by a minute modulation current and prevents degradation of response characteristics due to dynamic wavelength fluctuation in a high-frequency range when used in optical communication systems in which the switching of polarization mode is performed.

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11 Claims

1. A distributed feedback semiconductor laser for oscillating by switching two polarization modes having different polarization planes, said laser comprising:
- a substrate;
  
  a light waveguide formed on said substrate, said waveguide at least partially including an active layer;
  
  a diffraction grating formed around said waveguide, said waveguide and said grating being constructed such that minimum values of threshold gain in the polarization modes near a Bragg wavelength are approximately equal to each other; and
  
  injecting means for injecting a modulation current for switching the two polarization modes into a portion of said waveguide.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A distributed feedback semiconductor laser according to claim 1, wherein said active layer comprises a multi-quantum well structure, and a pitch of said grating is set such that the Bragg wavelength is shorter than a peak wavelength of a gain spectrum of said active layer.
  - 3. A distributed feedback semiconductor laser according to claim 1, wherein said active layer comprises a multi-quantum well structure, and said multi-quantum well structure is constructed such that a tensile strain is introduced into said multi-quantum well structure and a level of light holes, which is a second level of holes in said active layer, is equal to or higher than a level of heavy holes which is a ground level of holes.
  - 4. A distributed feedback semiconductor laser according to claim 1, wherein said laser is divided into a first region, into which a bias current is injected, and a second region, into which the modulation current is injected by said injecting means, along a resonance direction, and said active layer is formed in both said first and second regions.
  - 5. A distributed feedback semiconductor laser according to claim 1, wherein said laser is divided into a first region, into which a bias current is injected, and a second region, into which the modulation current is injected by said injecting means, along a resonance direction, and said active layer is formed only in said first region.
  - 6. A distributed feedback semiconductor laser according to claim 1, wherein said waveguide and said grating being constructed such that oscillation wavelengths of the different polarization modes are different from each other and a pitch of said grating is set such that the Bragg wavelength is shorter than a peak wavelength of a gain spectrum of said active layer.

7. An optical communication system comprising:
- (a) a transmitter including a light source apparatus, said light source apparatus including;
  
  a distributed feedback semiconductor laser for oscillating by switching two polarization modes having different polarization planes, said laser comprising;
  
  a substrate;
  
  a light waveguide formed on said substrate, said waveguide at least partially including an active layer;
  
  a diffraction grating formed around said waveguide, said waveguide and said grating being constructed such that minimum values of threshold gain in the two polarization modes near a Bragg wavelength are approximately equal to each other; and
  
  means for injecting a modulation current for switching the two polarization modes into a portion of said waveguide; and
  
  means for selecting only light in one of the two polarization modes from light outputs in the two polarization modes emitted by said laser;
  
  (b) transmission means for transmitting the light selected by said selecting means; and
  
  (c) a receiver for receiving the light transmitted by said transmission means.
- View Dependent Claims (8, 9)
- - 8. An optical communication system according to claim 7, wherein said receiver comprises an optical wavelength filter.
  - 9. An optical communication system according to claim 7, wherein said laser is constructed such that two bias currents and the modulation current are injected into respective portions of said waveguide and the oscillation wavelengths of said laser are changeable by changing a ratio between two bias currents, and said receiver comprises an optical tunable wavelength filter.

10. A light source apparatus comprising:
- a distributed feedback semiconductor laser for oscillating by switching two polarization modes having different polarization planes, said laser comprising;
  
  a substrate;
  
  a light waveguide formed on said substrate, said waveguide at least partially including an active layer;
  
  a diffraction grating formed around said waveguide, said waveguide and said grating being constructed such that minimum values of threshold gain in the two polarization modes near a Bragg wavelength are approximately equal to each other; and
  
  means for injecting a modulation current for switching the two polarization modes into a portion of said waveguide; and
  
  means for selecting only light in one of the two polarization modes from light outputs of the two polarization modes emitted by said laser.

11. An optical communication method comprising the steps of:
- (a) preparing a light source apparatus, said light source apparatus including;
  
  a distributed feedback semiconductor laser for oscillating by switching two polarization modes having different polarization planes, said laser comprising;
  
  a substrate;
  
  a light waveguide formed on said substrate, said waveguide at least partially including an active layer;
  
  a diffraction grating formed around said waveguide, said waveguide and said grating being constructed such that minimum values of threshold gain in the two polarization modes near a Bragg wavelength are approximately equal to each other; and
  
  means for injecting a modulation current for switching the two polarization modes into a portion of said waveguide; and
  
  means for selecting only light in one of the two polarization modes from light outputs in the two polarization modes emitted by said laser;
  
  (b) supplying to the laser a current which is produced by superposing a modulation current, modulated in accordance with a transmission signal, on a predetermined bias current;
  
  (c) selecting a light signal which is intensity-modulated in accordance with the transmission signal by the selecting means; and
  
  (d) transmitting the light signal to a receiver.

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Current Assignee
Canon Kabushiki Kaisha (Canon Inc.)
Original Assignee
Canon Kabushiki Kaisha (Canon Inc.)
Inventors
Ouchi, Toshihiko, Majima, Masao, Ono, Takeo
Primary Examiner(s)
Lee, John D.

Application Number

US08/352,759
Time in Patent Office

743 Days
Field of Search

372/9, 372/19, 372/20, 372/23, 372/27, 372/43-50, 372/96
US Class Current

372/19
CPC Class Codes

B82Y 20/00   Nanooptics, e.g. quantum op...

H01S 2301/14   Semiconductor lasers with s...

H01S 5/06209   in single-section lasers H0...

H01S 5/06236   controlling the polarisatio...

H01S 5/0625   in multi-section lasers

H01S 5/06258   with DFB-structure

H01S 5/12   the resonator having a peri...

H01S 5/3404   influencing the polarisation

H01S 5/34306   emitting light at a wavelen...

H01S 5/3432   the whole junction comprisi...

H01S 5/3434   with a well layer comprisin...

H04B 10/532   Polarisation modulation

Oscillation polarization mode selective semiconductor laser, light source apparatus and optical communication system using the laser

First Claim

1 Assignment

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Abstract

93 Citations

11 Claims

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Oscillation polarization mode selective semiconductor laser, light source apparatus and optical communication system using the laser

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

93 Citations

11 Claims

Specification

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Solutions

Use Cases

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