Gas detection system using intracavity fiber laser with loop cavity having saturated absorption fiber
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-021/17
G01J-003/42
G01N-021/61
G01N-033/00
G01N-021/25
출원번호
US-0509604
(2014-10-08)
등록번호
US-9029819
(2015-05-12)
우선권정보
CN-2013 1 0479313 (2013-10-14)
발명자
/ 주소
Zhu, Lianqing
Luo, Fei
Dong, Mingli
He, Wei
Zhang, Yinmin
Meng, Xiaochen
Zhou, Zhehai
출원인 / 주소
Beijing Information Science & Technology University
대리인 / 주소
Xia, Esq., Tim Tingkang
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A gas detection system with an inner ring cavity fiber laser using saturated absorption optical fiber is provided. The system comprising a ring fiber laser consisted of a pump source, a wavelength division multiplexer, a first active optical fiber, a first coupler, a fiber Bragg grating and a second
A gas detection system with an inner ring cavity fiber laser using saturated absorption optical fiber is provided. The system comprising a ring fiber laser consisted of a pump source, a wavelength division multiplexer, a first active optical fiber, a first coupler, a fiber Bragg grating and a second coupler connected successively; an optical isolator coupled between said first active optical fiber and said first coupler; a second active grating connected between said fiber Bragg grating and said first coupler; a detection gas chamber connected between said first coupler and said second coupler; a first photoelectric detector for detecting the laser intensity outputted from said ring fiber laser to generate a first light intensity signal; a second photoelectric detector for receiving the intensity measuring beam passing through the detection gas chamber to generate a second light intensity signal; and a feedback control unit.
대표청구항▼
1. A gas detection system comprising: a ring fiber laser comprising a pump source, a wavelength division multiplexer connected to the pump source, a first active optical fiber connected to the wavelength division multiplexer, a first coupler, a fiber Bragg grating and a second coupler;an optical iso
1. A gas detection system comprising: a ring fiber laser comprising a pump source, a wavelength division multiplexer connected to the pump source, a first active optical fiber connected to the wavelength division multiplexer, a first coupler, a fiber Bragg grating and a second coupler;an optical isolator coupled between the first active optical fiber and the first coupler, for preventing reverse light from transmitting in the first active optical fiber;a second active optical fiber connected between the fiber Bragg grating and the first coupler as a saturated absorber;a detection gas chamber connected between the first coupler and the second coupler;a first photoelectric detector connected to the output of the first coupler;a second photoelectric detector connected to the second coupler;a feedback control unit connected to the first photoelectric detector and the second photoelectric connector,wherein the first coupler is configured to receive a laser light isolated by the optical isolator, divide the laser light into a first detection beam and a first intensity measuring beam according to a first power ratio, and output the first detection beam and the first intensity measuring beam;wherein the detection gas chamber is configured to receive gas to be detected, and receive the first detection beam outputted from the first coupler, such that he first detection beam passes through the gas to be detected to generate and output a second detection beam to the second coupler;wherein the second coupler is configured to divide the second detecting beam outputted from the detection gas chamber into a feedback beam and a second intensity measuring beam according to a second power ratio, and output the feedback beam and the second intensity measuring beam;wherein the first photoelectric detector is configured to receive the first intensity measuring beam from the first coupler, generate a first light intensity signal, and output the first light intensity signal;wherein the second photoelectric detector is configured to receive the second intensity measuring beam from the second coupler, generate a second light intensity signal, and output the second light intensity signal; andwherein the feedback control unit is configured to receive the first light intensity signal outputted from the first photoelectric detector and the second light intensity signal outputted from the second photoelectric detector, and generate at least one feedback control signal to adjust the pump source and the fiber Bragg grating. 2. The gas detection system as claimed in claim 1, wherein the first power ratio of the first detecting beam and the first intensity measuring beam is 98:2. 3. The gas detection system as claimed in claim 1, wherein the feedback control unit is configured to: determine whether output of the ring fiber laser is stable, if it is not stable, output a first feedback control signal to adjust power output of the pump source until it is stable;determine whether a wavelength range of a signal mode outputted from the ring fiber laser covers characteristics spectral lines of the gas to be detected, if it does not cover, output a second feedback control signal to adjust reflectivity of the fiber Bragg grating until it covers; andcompare the second light intensity signal with a reference signal stored in the feedback control unit to obtain a result of concentration change of the gas to be detected. 4. The gas detection system as claimed in claim 3, wherein the feedback control unit determines whether the wavelength range of the signal mode covers the characteristic spectral lines by comparing whether a signal intensity value of the second light intensity signal is substantially smaller than that of the first light intensity signal. 5. The gas detection system as claimed in claim 3, wherein if a signal intensity value of the second light intensity signal detected at present is greater than a stored signal intensity value of the reference signal, a concentration of the gas to be detected is reduced; if less, the concentration of the gas to be detected is increased. 6. The gas detection system as claimed in claim 3, further comprising a laser control unit attached to the fiber Bragg grating, and a deformation of the laser control unit is controlled by the second feedback control signal so as to change a laser resonator cavity length. 7. The gas detection system as claimed in claim 6, wherein the laser control unit is made of PZT piezoelectric ceramic or TE temperature control unit. 8. The gas detection system as claimed in claim 1, wherein the wavelength division multiplexer is a wavelength division multiplexed device of 1×2. 9. The gas detection system as claimed in claim 1, further comprising a first spherical lens for coupling the first detecting beam into the detection gas chamber and a second spherical lens for outputting the second detecting beam from the detection gas chamber. 10. The gas detection system as claimed in claim 1, wherein the first and the second active fibers are selected from any of an ytterbium-doped fiber, erbium-doped fiber or erbium ytterbium co-doped fiber.
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