MPB Communications

MPB Communications（加拿大）

http://www.mpbc.ca

地址：: 147 Hymus Boulevard Montreal, Quebec H9R 1E9 Canada

电话：: +1 514 694 8751

传真：

产品：: 超快激光器单频激光器红激光拉曼放大器光纤通信光数据传输窄线宽激光器锁模激光器锁模光纤激光器激光光纤光纤光学光纤激光器光纤布拉格光栅光纤放大器布拉格光栅放大器黄色和橙色激光

公司简介

MPB communications Inc，加拿大RCA科学家与1997年成立。MPB公司专注于光纤激光器和通讯光源，包括：可见光纤激光器、掺镱光纤激光器、被动锁膜光纤激光器、OEM光纤激光器、宽带光源、光纤放大器、光纤布拉格光栅。该系列光纤激光器应用广泛，包括：荧光显微镜、流式细胞仪、生物医疗、眼科学、超快光谱学、计量学、激光微加工。可见光纤激光器，波长包括：488nm、514nm、532nm、542nm、546nm、560nm、570nm、580nm、589nm、592nm、

620nm、628nm、642nm、647nm、670nm，功率包含：200mW、300mW、500mW、1000mW、1500mW、2000mW，具有能效高、稳定性好、使用寿命长、能耗低、结构紧凑的特点。

产品列表

	YFL-P Series
Emission Wavelength user-specified range	976, 1030 - 1660	nm
Wavelength Accuracy	± 0.5	nm
Long Term Wavelength Stability - Nominal	± 0.02	nm
Degree of Polarization	> 99	%
Diffraction Limited Beam M²	< 1.1	%
Long term output power drift (8 hours)	± 1	%
Relative RMS Intensity Noise at Nominal Power, integrated over 5 Hz to 100 kHz	< 2	%

CW Visible

Available wavelengths: 488 nm, 514 nm, 532 nm, 542 nm, 546 nm, 560 nm, 570 nm, 580 nm, 583 nm, 589 nm, 592 nm, 595 nm, 606 nm, 620 nm, 628 nm, 642 nm, 647 nm, 658 nm, 670 nm, 750 nm, 775 nm.

Output power range from 100 mW to 5W CW, and are available in a compact OEM modules for system integration or 2RU-Rack mount modules for laboratory use. All units have the same compact size laser head, making the VFLs easy to integrate for system applications.

	Minimum	Typical	Maximum
Ellipticity		7	20	%
Beam Quality M²		1.08	1.15
Static Beam Angle (relative to front plate)		< 5		mrad
Power Tunability Range	20		100	%
Emission Linewidth (FWHM)			0.1	nm
Long Term Wavelength Stability	Nominal - 0.02		Nominal + 0.02	nm
Degree of Polarization	99			%
RMS noise at nominal power integrated over 5 Hz to 100 kHz		<2		%
Long Term Outpower Drift (8 hours) peak to peak			2	%

Features

Narrow Linewidth
Active Power Stabilization to ensure longterm power stability of < 2%
Excellent wavelength stability to ensure spectral purity (± 0.02 nm)
Graphical User Interface for easy command and control
Compact laser head
Tunable output power (from 20% to 100% of nominal) to adapt to application-specific requirements
High reliability
Maintenance-free

Applications:

Flow Cytometry
Fluorescence Microscopy
Structured Illumination Microscopy
Super Resolution Microscopy
3rd Generation DNA Sequencing
Entertainment
Military, and Scientific Research

Specifications

Beam: Collimated
Transverse Mode: TEM₀₀
Polarization: Linear
Orientation of Polarization: Vertical to the base

Pulsed

Picosecond Mode-Locked

Based on an all-fiber design, the MLFL is highly reliable (10,000 hrs) and maintenance-free.

Features

Self-starting
Low amplitude noise
Spectrally transform-limited pulse widths without CW light content
Linearly-polarized, environmentally-stable output
Compact
Low power consumption

Applications

Biomedical and Chemistry (multi-photon microscopy, ultra-fast spectroscopy)
Micro-Machining (semiconductor wafer and transparent materials processing)
Tera-Hertz Generation (material defect imaging, security)
Time Response Characterization
High-Speed Optical Sampling
Metrology

Specification Overview

MPBC's picosecond Mode-Locked Fiber Lasers are available with customized specifications within the following range:


Emission Wavelength		1020 to 1100	nm
Pulse Duration		2 to 50	ps
Average Output Power
	- Seed Only	2 - 20	mW
	- with Preamplifier	150	mW
	- with Booster	3000	mW
Repetition Rate		30 to 100	MHz
Polarization		Linear

Nanosecond Pulsed

Based on an all-fiber laser cavity design and offering excellent beam quality and wall plug efficiency, these compact air-cooled lasers are an ideal choice for your application.

Repetition Rate: 20 - 40 MHz*
Average Power Stability: < 3%
Pulse to Pulse Stability: <5%

Features

All -fiber laser cavity
Excellent beam quality
High wall plug efficiency
Graphical User Interface
Highly reliable, maintenance free
Safety interlock
Compact & air-cooled

Applications

Structured Illumination Microscopy
Super Resolution Microscopy
3rd Generation DNA Sequencing
Entertainment
Military, and Scientific Research

		Wavelength	Energy/Pulse	Pulse duration**
External or Internal Triggering		1028, 1064, 1550 nm	100 nJ	1.5 - 4 ns
		514, 532 nm	50 nJ	1.3 - 4 ns
		775 nm	30 nJ	1.3 - 4 ns
Internal Triggering		1120, 1240 nm	60 nJ	1.1 - 4 ns
Internal Triggering		560, 620 nm	10 nJ	0.5 - 2 ns
* **	Other repetition rates custom Other models available

Single Frequency Amplifiers & Lasers

Single Frequency Raman Fiber Amplifiers

The SF System consists of three modules:

Raman Fiber Amplifier: Based on single-mode polarization-maintaining fiber, the RFA accepts a narrowband seed signal and amplifies it to a high power with minimum spectrum broadening
Ytterbium Fiber Laser: Provides a high-intensity linearly polarized pump light needed for Raman Amplification
Second Harmonic Generator (Optional): Converts the frequency of the amplified signal to the visible spectrum with high efficiency

Features

True diffraction limited beam with M² < 1.1
Unprecedented beam pointing and power stability
All-fusion-spliced fiber-optic train eliminates the need for alignment
Maintenance-free turn-key operation
Low power consumption compact package

Applications

Laser Guide Star for Adaptive Optics
Sodium Vapor Spectroscopy
Atom Cooling
Microscopy
Interferometry
Holography
Bio Photonics Applications

Single-Frequency NIR Raman Fiber Amplifier

	Min	Typical	Max
Amplification Wavelength factory preselected	1030		1342	nm
Output Power		8*		W
Polarization Linear,slow axis		Linear
Polarization Extinction Ratio	98			%
Power Stability APC, after 30 min warm-up			+/- 2 %	/hour
Transverse Mode		TEM₀₀
Beam Quality, M²			1.1
* Output power is wavelength dependent, please consult factory.

Single-Frequency Visible Raman Fiber Amplifier

	Min	Typical	Max
Output Wavelength depending on model	515	-	670	nm
Output Power		2*		W
Polarization vertical in respect to the base		Linear
Polarization Extinction Ratio	98			%
Power Stability APC, after 30 min warm-up			+/- 2 %	/hour
Transverse Mode		TEM₀₀
Beam Quality, M²			1.1

Single Frequency Fiber Lasers

Features

Low intensity noise
True single frequency operation without mode hops (single-frequency models)
Long coherence length
Interlock
Safety key

Applications

Applications
Interferometry
Doppler sensors
Atom Cooling
Microscopy
Holography
Bio Photonics Applications

Single Frequency NIR Fiber Lasers

	Min	Nominal	Max
Wavelengths Available	1028 or 1064			nm
Output Power	up to 10			W
Power Tunability Range		20 - 100		%
Emission Linewidth (FWHM)		50	100	kHz
Long Term Wavelength Stability	Nominal - 0.02		Nominal + 0.02	nm
Degree of Polarization	98	99		%
Relative RMS Intensity Noise at Nominal Power, Integrated over 5 Hz to 100 kHz		0.1 (typical)	0.3	%
Long Term Output Power Drift (8 hours)	-2		2	%

Single Frequency Visible Fiber Lasers

	Min	Nominal	Max
Wavelengths Available	514 or 532			nm
Output Power	200, 500, 1000			mW
Power Tunability Range		20 - 100		%
Emission Linewidth (FWHM)		100	200	kHz
Long Term Wavelength Stability	Nominal - 0.02		Nominal + 0.02	nm
Degree of Polarization	98	99		%
Relative RMS Intensity Noise at Nominal Power, Integrated over 5 Hz to 100 kHz		0.1 (typical)	0.3	%
Long Term Output Power Drift (8 hours)	-2		2	%