JP2003315858A - Interphase modulation type full optical wavelength converter having polarized wave selection means - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an interphase modulation type full optical wavelength converter capable of realizing the same directional incidence of signal light and pumping light and conversion of the signal light into the same wavelength by a simple configuration. <P>SOLUTION: The interphase modulation type wavelength converter is so arranged that signal light S<SB>1</SB>' of either of the modes (for example, TE mode) converted from signal light S<SB>1</SB>coresident with TM mode and TE mode and CW light S<SB>2</SB>' of the other mode (for example, TM mode) are made to incident to the interphase modulation type wavelength converter 12 from the same direction, and also the output light from the interphase modulation type wavelength converter 12 is polarized and demultiplexed by a polarization beam splitter 13 to obtain thereby wavelength-converted signal light S<SB>6</SB>' of the same mode converted with the wavelength of CW light S<SB>2</SB>'. <P>COPYRIGHT: (C)2004,JPO

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention has a polarization selecting means.
Cross-modulation type all-optical wavelength converter, especially with signal light
Cross phase modulation type wavelength conversion means for pump light from the same direction
When the wavelength is converted to the same wavelength
It is useful when applied to [0002] 2. Description of the Related Art Signal light is converted to a wavelength different from the input wavelength.
Wavelength converters are wavelength multiplexed
In lightwave network systems based on communications
Tunable light source that can change the wavelength of emitted light
Both are essential and important optical devices. Such wavelength conversion
Cross-phase modulation type wavelength converter (XPM)
is there. This consists of, for example, a Mach-Zehnder interferometer
An optical interference circuit and two arm waveguides of the optical interference circuit
Two semiconductor optical amplifiers (SOAs) to be arranged
Combined. And such a cross-phase modulation type wavelength
The signal light whose wavelength is converted is sent to one input port of the converter.
A continuous wave of a specified wavelength is input to another input port
Pump light, which is signal (CW) light, enters. As a result,
The output port converts the signal light to the wavelength of the pump light.
Obtain output signal light. [0003] Generally, a wavelength converter is a lightwave network.
The system must also have the same wavelength conversion function
May be done. Then, the mutual phase modulation type wavelength conversion is performed.
In the converter, the incident directions of the signal light and the pump light are different.
In such a case, the same wavelength conversion function can be provided.
However, the signal light and the pump light are incident from the same direction.
It is not possible. Same signal light and pump light of the same wavelength
When incident from the direction,
Wave of signal light coming out of the output port and its wavelength converted light
Since the lengths are the same, the wavelength from the mixed output light
This is because the converted light cannot be separated by a filter.
You. However, for high-speed modulation, signal light and po
It is desired that the pump light is incident from the same direction. Good
This is to ensure a proper response. Therefore, high-speed modulation
And conversion to the same wavelength at the same time
In order to solve the problem, a cross phase modulation type all light wave as shown in FIG.
Long converters have been proposed. This prior art mutual position
The phase modulation type all-optical wavelength converter has two cross phase modulation type wavelengths.
Combined converters 1 and 2 with two filters 3 and 4
Things. Here, the filter 3 has a cross-phase modulation type wavelength.
CW light S of a specific wavelength which is the pump light of the converter 1_TwoSame as
This is a fixed wavelength optical filter for selecting light of a wavelength. Ma
The pump light of the cross-phase modulation type wavelength converter 2 is a variable wave.
Long CW light S_FourAnd the filter 4 has the CW light S_FourSame as
This is a variable wavelength optical filter for selecting light of a wavelength. [0005] Thus, the cross-phase modulation type wavelength converter 1
Incident signal light S₁Is the CW light S _TwoIs converted to
Output signal light S_ThreeAre emitted from the filter 3. phase
The output signal light S is supplied to the mutual phase modulation type wavelength converter 2._ThreeWith
CW light S as pump light _FourIs incident. This result
As a result, the output signal light S of the filter 4_FiveAs the output signal light
S_ThreeTo CW light S_FourOptical signal of the wavelength converted by the
It is. Therefore, the variable wavelength CW light S_FourAnd variable wavelength
The set wavelength of the filter 4 is set to the signal light S.₁As the same wavelength as
If it is, signal light S₁And output signal light S_FiveAnd the same wavelength
To achieve the same wavelength conversion for the same direction of incidence.
It is. [0006] SUMMARY OF THE INVENTION The prior art as described above
In such a cross-phase modulation type all-optical wavelength converter,
Two phase modulation type wavelength converters 1 and 2 and two filters 3 and 4
Must be prepared, complicating the configuration and
Therefore, there is a problem that the cost is increased. In particular,
Filter 4 must be a tunable filter,
This also leads to higher costs. Also, cross-phase modulation
Type wavelength converters 1 and 2 each include two semiconductor optical amplifiers.
However, these gain and phase adjustments are performed individually.
In addition to what must be done,
Is also troublesome. [0007] In view of the above prior art, the present invention relates to a signal light and
Co-incident with pump light and conversion of signal light to same wavelength
Having a polarization selecting means that can be realized with a simple configuration.
It is intended to provide a phase modulation type all-optical wavelength converter.
You. [0008] [MEANS FOR SOLVING THE PROBLEMS]
The configuration of Ming is characterized by the following points. 1) TM mode and TE mode are mixed
Either TM mode or TE mode
A constant-polarization input means for converting the signal light into one mode;
Combining an interference circuit and a semiconductor optical amplifier,
Either mode signal which is the output light of the constant polarization input means
The mode of the other mode opposite to the mode of the signal light and this signal light
Mutual phase for injecting pump light and converting the wavelength of the signal light
Modulation type wavelength conversion means, and a cross phase modulation type wavelength conversion means.
A signal of the same mode as that of the pump light by emitting the output light of the stage
Polarization selection means for selecting an optical signal to make it an output signal light
And having 2) The polarization selecting means described in 1) above
With cross-phase modulation type all-optical wavelength converter
Input means is a mixture of incident TM mode and TE mode
Beam that splits the signal light to be split into polarization signals of each mode
A splitter and a splitter split by the polarization beam splitter.
Rotate the plane of polarization of the signal light in one mode and
Polarization plane rotation means for converting signal light having a polarization plane,
The signal light whose polarization plane is rotated by the wavefront rotation means and the polarization beam
Combine with the signal light of the other mode branched by the Msplitter
And a coupler that emits light. 3) The polarization selection described in the above 1) or 2)
In cross-phase modulation type all-optical wavelength converter with selection means
Thus, the polarization selecting means is capable of detecting the incident TM mode and TE mode.
Polarization, which splits signal light with mixed
It consists of a wave beam splitter. 4) Polarization selection as described in 1) or 2) above
Cross-phase modulation type having polarization selecting means having selector means
In the optical wavelength converter, the polarization selecting means includes the incident TM.
Either of the signal light in which the mode and the TE mode are mixed
That the polarizer is selected. 5) Any of the above 1) to 4)
Cross-phase modulated all-optical wavelength shifter with one polarization selector
In the converter, the semiconductor light of the cross phase modulation type wavelength conversion means
The amplifier must be polarization independent. 6) Any of the above 1) to 5)
Cross-phase modulated all-optical wavelength shifter with one polarization selector
In the converter, constant polarization input means, cross-phase modulation type wavelength conversion
The conversion means and the polarization selection means are provided on the silica-based optical waveguide circuit.
Must be integrated. [0015] FIG. 1 shows an embodiment of the present invention.
Cross-phase modulation type all-optical wavelength converter with polarization selection means
It is a block diagram shown. As shown in FIG.
The force unit 11 is a signal in which the TM mode and the TE mode are mixed.
Light S₁And enter either TM mode or TE mode
Signal light S of one mode₁’. In this case,
Conversion to the TE mode is assumed. Cross-phase modulation wavelength
Converter (XPM) 12 uses Mach-Zehnder interferometer
And the arm waveguide of this optical interference circuit.
Two semiconductor optical amplifiers (SOA) 12 respectively arranged
a and 12b. In the figure, 12
c, 12d, 12e, and 12f are optical couplers. The cross phase modulation type wavelength converter 12 is
TE mode signal light that is the output light of the polarization input device 11
S₁'And the signal light S₁’Mode
The pump light has a specific wavelength (TM mode in this embodiment).
CW light S_Two'To the input port. As a result,
The output port of the cross-phase modulation type wavelength converter 12 has T
E-mode signal light S₁’And the TM mode wavelength conversion signal
Light S₆'Are emitted. Wavelength conversion signal light S₆’Is Pong
CW light S which is a light source_TwoOf the same polarization mode at the same wavelength as
Signal light. Here, the pump light maintains the TM mode.
In this state, the light enters the cross-phase modulation type wavelength converter 12.
Incident through the polarization maintaining fiber 14
You. The polarization beam splitter 13 has a
The output light of the tunable wavelength converter 12, that is, the signal of the TE mode.
Light S₁'And TM mode wavelength-converted signal light S₆’
And each signal light S₁’, S₆’For each mode
It emits light. Thus, the polarization beam split
CW light S from one output port 13a of the_Two’
Wave of the same mode and the same wavelength (TM mode in this embodiment)
Long conversion signal light S₆'Is obtained as output signal light. Ma
The other output port 13b outputs a TE mode signal.
Light S₁'. Here, CW light S_Two’Wavelength
Light S₁', The output port 13a
Converted signal light S emitted to₆’Is the signal light S₁Same as ’
One wavelength. That is, the cross-phase modulation type all-optical wavelength
Signal light S incident on the converter₁Wavelength conversion of the same
You. Note that the polarization beam splitter 13
Then, the wavelength conversion signal light S₆'As well,
Signal light S₁’Is also emitted.
Long conversion signal light S₆’Alone. Therefore, the polarization
Wavelength conversion instead of the beam splitter 13
The waveguide connected to the output port of the
Wavelength conversion signal, which is a signal light of TM mode (TM mode in this embodiment).
Light S₆'May be provided. FIG. 2 shows the constant polarization input device 11 shown in FIG.
It is an enlarged view shown in detail. As shown in FIG.
The power device 11 is a polarization beam splitter 11a, (1/2)
It has a λ wavelength plate 11b and an optical coupler 11c. these
The polarization beam splitter 11a includes the cross-phase modulation.
Mode and TE mode that are incident light of the
Signal light S with mixed code₁Split into polarized signals of each mode
Is what you do. The (1/2) λ wavelength plate 11b is
One mode branched by the beam splitter 11a (this mode
In the TM mode) signal light S₁By rotating the plane of polarization
The signal light S in the other mode (TE mode in this embodiment)₁’
This is adapted to the polarization mode. Optical coupler 11c
Is to rotate the plane of polarization by the (1/2) λ wave plate 11b.
Signal S converted to TE mode by₁’And the polarized wave
Signal light S in the TE mode branched by the beam splitter 11a
₁′ Are emitted. Also, a (1/2) λ wave plate
Between 11b and coupler 11c and polarization beam splitter
A heater 11 is provided between the waveguide 11a and the coupler 11c.
d and 11e are provided respectively. Heater 11d, 1
1e, the signal light S₁'' And signal light
S₁’Varies its power between“ 1 ”and“ 0 ”
You. In other words, the state may be "0".
Be able to adjust the phase to avoid
That's why. Thus, the cross-phase modulation type all-optical wavelength conversion
Light S incident on the converter₁Through the polarization input device 11
The signal light S having only the TE mode as a component.
₁'. A cross-phase modulation type all-optical wavelength converter as described above
Polarization input device 11 constituting the cross-wavelength conversion type
The optical device 12 and the polarization beam splitter 13 are composed of a silica-based optical waveguide.
All of them are integrated on the circuit. Thus, this form
The cross-phase modulation type all-optical wavelength converter according to the embodiment is a so-called P
It is preferable to use an LC (Planar Lightwave Circuit)
Can be. As described above, the cross phase modulation type of the present embodiment
In the optical wavelength converter, the output of the polarization beam splitter 13
In the power port 13a, the CW light S in the TM mode_Two’Wavelength
Wavelength converted signal light of the same mode (TM mode)
S₆'. Then, this wavelength-converted signal light S₆’Is Shin
Light S₁And signal light having the same waveform as Therefore, CW
Light S_Two′ For the signal light S₁If the wavelength is the same as
Light S₁Can be realized by polarization separation. In the above embodiment, the signal light S
₁And CW light S_Two′ To the cross-phase modulation type wavelength converter 12.
On the other hand, when incident from the same direction (left side in FIG. 1)
However, the directions are not necessarily limited to the same direction. Both
Even if the signal is incident in the opposite direction, the technical idea of the present invention
include. [0024] The present invention has been described in detail with the embodiments.
As described above, according to the present invention, it is possible to use the difference between the polarization modes.
The output signal is separated by
Is the same as the wavelength of the pump light,
The exchange signal light can be extracted. That is, the prior art
Uses two cross-phase modulation wavelength converters
The same direction incidence and the same wavelength conversion of signal light
It can be realized even with one cross-phase modulation type wavelength converter.
You. As a result, the cross-phase modulation type all-optical wavelength converter is installed.
Easy installation, reduced cost and reduced adjustment work
Can contribute. Also processed by cross-phase modulation type wavelength converter
Polarization is fixed, the semiconductor optical amplifier is
It is not always necessary to limit to polarization independent ones.
The selection conditions of the elements are relaxed, and the cost in this aspect is low.
We can expect reduction. However, polarization independent ones are more preferable.
There is no argument about the new point. Further, the cross-phase modulation type all-optical wavelength converter
If the device is composed of a silica-based optical waveguide circuit,
Can also enjoy the merits of conversion. Further, the signal light and the pump light are cross-phase modulated.
When the light is incident in the opposite direction to the wavelength conversion means
In terms of ensuring good responsiveness associated with high-speed modulation.
It is more disadvantageous than one-way incidence,
The same wavelength conversion can be performed without polarization mode separation.
This has the effect of being able to

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a cross-phase modulation type all-optical wavelength converter having polarization selecting means according to an embodiment of the present invention. FIG. 2 is an enlarged view extracting and showing the constant polarization input device of FIG. 1; FIG. 3 is a configuration diagram illustrating a cross-phase modulation type all-optical wavelength converter according to the related art. [Description of Signs] 11 Constant polarization input device 11a Polarization beam splitter 11b (1/2) λ wavelength plate 11c Optical coupler 12 Cross-phase modulation type wavelength converters 12a and 12b Semiconductor optical amplifier 13 Polarization beam splitters S ₁ and S ₁ ', S ₁ ''signal light S ₂ ' CW light S ₆ 'wavelength converted signal light

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Katsuaki Song             2-3-1 Otemachi, Chiyoda-ku, Tokyo Sun             Nippon Telegraph and Telephone Corporation (72) Inventor Yasuhiro Suzuki             2-3-1 Otemachi, Chiyoda-ku, Tokyo Sun             Nippon Telegraph and Telephone Corporation (72) Inventor Ikuo Ogawa             2-3-1 Otemachi, Chiyoda-ku, Tokyo Sun             Nippon Telegraph and Telephone Corporation F term (reference) 2K002 AA02 AB12 BA03 CA13 DA08                       DA11 EA08 HA26

Claims (1)

Claims: 1. A constant polarization input means for receiving a signal light in which a TM mode and a TE mode are mixed and converting the signal light into a signal light in one of a TM mode and a TE mode. An interference circuit and a semiconductor optical amplifier are combined, and a signal light in one mode and a pump light in the other mode opposite to the mode of the signal light, which are emitted lights of the constant polarization input means, are incident. Cross-phase modulation type wavelength conversion means for converting the wavelength of the signal light, and selecting the signal light in the same mode as the pump light by emitting the light emitted from the cross phase modulation type wavelength conversion means and outputting the output signal light. A cross-phase modulation type all-optical wavelength converter having polarization selecting means. 2. The cross-phase modulation type all-optical wavelength converter having the polarization selecting means according to claim 1, wherein the constant polarization input means converts the incident signal light in which the TM mode and the TE mode are mixed. A polarization beam splitter that splits into a polarization signal of each mode, and a polarization plane that turns the polarization plane of the signal light of one mode branched by the polarization beam splitter to generate signal light having the polarization plane of the other mode Rotating means,
A polarization selecting means, comprising: a coupler that combines and emits the signal light whose polarization plane is rotated by the polarization plane rotating means and the signal light of the other mode branched by the polarization beam splitter. Phase-modulated all-optical wavelength converter. 3. A cross-phase modulation type all-optical wavelength converter having the polarization selecting means according to claim 1 or 2, wherein the polarization selecting means determines whether the incident TM mode or TE mode is used. A cross-phase modulation type all-optical wavelength converter having polarization selecting means, comprising a polarization beam splitter for splitting mixed signal light into polarization signals of respective modes. 4. A cross-phase modulation type all-optical wavelength converter having a polarization selecting means according to claim 1 or 2, wherein the polarization selecting means determines whether the incident TM mode or TE mode is used. A cross-phase modulation type all-optical wavelength converter having polarization selecting means, comprising a polarizer for selecting one of mixed signal lights. 5. A cross-phase modulation type all-optical wavelength converter having any one of the polarization selecting means according to claim 1 to claim 4, wherein the semiconductor light of the cross-phase modulation type wavelength converting means is provided. A cross-phase modulation type all-optical wavelength converter having polarization selecting means, wherein the amplifier is polarization independent. 6. A cross-phase modulation type all-optical wavelength converter having any one of the polarization selection means according to any one of claims 1 to 5, wherein: The wavelength conversion means and the polarization selection means are all integrated on a silica-based optical waveguide circuit. A cross-phase modulation type all-optical wavelength converter having polarization selection means.