Decathium supports EARTH HOUR
Saturday 28 March 2009
8.30pm - 9.30pm
See your world in a whole new light
For More Information, Please Visit: http://www.earthhour.org/home/
WELCOME to Decathium Sdn Bhd web blog. This blog is written in bilingual, Bahasa Melayu (Bahasa Malaysia) and English, to ensure that all the information reach to all levels of visitors. THANK YOU for be with us. HAPPY READING...
Thursday, March 26, 2009
Wednesday, March 25, 2009
Career - Eksekutif Pemasaran
Eksekutif Pemasaran
* Memasarkan produk peralatan saintifik
* Kekosongan 1 (tetap)
* Lepasan IPTA, Diploma - Electrical, Elektronik Komunikasi
* Tarikh tutup: 30 April 2009
* Untuk keterangan lanjut sila hubungi:-
DECATHIUM SDN BHD
No.10C Jalan BK5A/2A
Bandar Kinrara
47100 PuchSelangor Darul Ehsan
Tel: 03-8076 6766 Fax: 03-8076 1766
work together . success together.
* Memasarkan produk peralatan saintifik
* Kekosongan 1 (tetap)
* Lepasan IPTA, Diploma - Electrical, Elektronik Komunikasi
* Tarikh tutup: 30 April 2009
* Untuk keterangan lanjut sila hubungi:-
DECATHIUM SDN BHD
No.10C Jalan BK5A/2A
Bandar Kinrara
47100 PuchSelangor Darul Ehsan
Tel: 03-8076 6766 Fax: 03-8076 1766
work together . success together.
Monday, March 23, 2009
Latest Products Supplied - Bismuth Erbium (Bi-Er) Doped Fiber
Bismuth-Erbium Doped Fiber
Er concentration: 6300ppm
Length: 48.2cm
Core: 39um
Cladding: 124.7um
NA: 0.2
Insertion loss: -2.1 dB@1.3um
Note: High-NA / BIEDF / Hight-NA
High-NA: Nufern 980-HP, NA 0.2 (typical)
Wednesday, March 11, 2009
Latest Products Supplied - Long Period Grating (LPG)
Long Period Grating (LPG)- Center wavelength : 1532nm (tolarence +/-2nm)
- Bandwidth : ~16nm
- Transmission loss : ~90%
- Recoating : NO recoating
- Fiber pigtail : 1 meter on each side of FBG
- Total fiber length : 1 meter
Latest Products Supplied - Broadband Fiber Bragg Grating (FBG)
Broadband Fiber Bragg Grating (FBG), 40nm Bandwidth- Center wavelength: 1550nm
- Bandwidth = 40nm (tolarence +/-5%)
- Reflectiyity > = 99%
- Grating profile = Chirped + Apodized
- Fiber type = SMF-28
- Recoating = acrylate recoat (and Teflon tube protection)
- Fiber length = 2 meters
Thursday, March 5, 2009
Latest Products Supplied - Specialty Fiber: New Innovation Er-Yb-Tm Co-Doped Single Mode Fiber
Er-Yb-Tm Co-Doped Single-Mode Silica Fibre
Specifications:-
Targeted values (Best effort):
• Core diameter: 4.5 μm
• Effective core numerical aperture: 0.16
• Core dopants concentrations:
***Erbium, Er = 2000 ppm
***Ytterbium, Yb = 20000 ppm
***Thulium, Tm = 2500 ppm
• Theoretical LP11 cut-off wavelength: 950 nm
• Absorption near 790 nm: 50 dB/m
• Absorption near 976 nm: 400 dB/m
• Absorption near 1660 nm: 25 dB/m
• Estimated background loss at 1550 nm: 200 dB/km
Specifications:-
Targeted values (Best effort):
• Core diameter: 4.5 μm
• Effective core numerical aperture: 0.16
• Core dopants concentrations:
***Erbium, Er = 2000 ppm
***Ytterbium, Yb = 20000 ppm
***Thulium, Tm = 2500 ppm
• Theoretical LP11 cut-off wavelength: 950 nm
• Absorption near 790 nm: 50 dB/m
• Absorption near 976 nm: 400 dB/m
• Absorption near 1660 nm: 25 dB/m
• Estimated background loss at 1550 nm: 200 dB/km
Guaranteed values:
• Cladding diameter: 124.7 ± 1 μm
• Standard acrylate coating diameter: 250.0 ± 10 μm
• Screen proof test: 110 kpsi
Wednesday, March 4, 2009
Back To Basics - Laser
The word laser is an acronym (an abbreviation pronounced as an ordinary word) of Light Amplification by Stimulated Emission of Radiation. Lasers are devices that produce or amplify a beam of narrow, low-divergence light with a well-defined wavelength within the optical region of the electromagnetic spectrum, covering the infrared, the visible and the ultraviolet.
Lasers have a variety of uses in such areas as surgery, welding and metal cutting, and sound and video recording and reproduction.
Historically, the laser is very different from other 20th century inventions as it first appeared as an imaginary literary creation.
Even before the invention of the first laser in 1960, and when only a handful of specialists were aware of Einstein's prediction of stimulated emission (1917), the term “laser” was already well-known. In particular, numerous science-fiction writers had imagined an extremely powerful beam, capable of destroying anything in its path. These devices were generally controlled by aggressive intergalactic beings bent on wreaking havoc on the world.
Since the discovery of the first real laser in 1961, many others have been developed each year. Current research is focused on the development of solid state lasers (diode lasers, crystal or amorphous solids doped with active ions, optic fibre lasers) with the aim of obtaining much shorter pulses (the present limit is 4.5 fs or 4.5 10-15 seconds) and much greater power (emissions of about 10 kilowatts are now common).
Some important dates:
1961: Javan, Bennet and Herriot build the first gas helium-neon laser operating
continuously at 1.15. In fact, this laser can emit over a whole range of discrete wavelengths, from green to infrared via orange and red (633 nm).
1962: First red helium-neon laser.
1965: First semiconductor lasers.
1966: First coloured pulsed lasers (red, orange, yellow).
1970: First coloured continuous-wave lasers (red, orange, yellow).
Lasers have a variety of uses in such areas as surgery, welding and metal cutting, and sound and video recording and reproduction.
Historically, the laser is very different from other 20th century inventions as it first appeared as an imaginary literary creation.
Even before the invention of the first laser in 1960, and when only a handful of specialists were aware of Einstein's prediction of stimulated emission (1917), the term “laser” was already well-known. In particular, numerous science-fiction writers had imagined an extremely powerful beam, capable of destroying anything in its path. These devices were generally controlled by aggressive intergalactic beings bent on wreaking havoc on the world.
Since the discovery of the first real laser in 1961, many others have been developed each year. Current research is focused on the development of solid state lasers (diode lasers, crystal or amorphous solids doped with active ions, optic fibre lasers) with the aim of obtaining much shorter pulses (the present limit is 4.5 fs or 4.5 10-15 seconds) and much greater power (emissions of about 10 kilowatts are now common).
Some important dates:
1961: Javan, Bennet and Herriot build the first gas helium-neon laser operating
continuously at 1.15. In fact, this laser can emit over a whole range of discrete wavelengths, from green to infrared via orange and red (633 nm).
1962: First red helium-neon laser.
1965: First semiconductor lasers.
1966: First coloured pulsed lasers (red, orange, yellow).
1970: First coloured continuous-wave lasers (red, orange, yellow).
Monday, March 2, 2009
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