Military and civil authorities could benefit from secure optical communication systems that use light to carry messages between moving vehicles. Researchers at KAUST have now demonstrated rapid data transfer using ultraviolet-B (UV-B) light, which provides many advantages over visible light.
Optical communications systems using visible [...]
2018-01-05meta-author
PAM XIAMEN offers 100mm Si wafers. Please send us email at sales@powerwaywafer.com if you need other specs and quantity.
Item
Material
Orient.
Diam
(mm)
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
PAM2383
n–type Si:P
[111] ±0.5°
4″
630
P/G
FZ >7,000
SEMI Prime, 1Flat, in Empak, Lifetime>1,000μs, Back–side Fine Ground
PAM2384
n–type Si:P
[111] ±0.5°
4″
675
P/E
FZ >7,000
SEMI, 1Flat, Lifetime>1,600μs, in Empak cassettes of 6 and 8 wafers
PAM2385
n–type Si:P
[111] ±0.5°
4″
675
P/E
FZ [...]
2019-02-19meta-author
PAM XIAMEN offers Single-emitter LD Chip 808nm @8W.
Brand: PAM-XIAMEN
Wavelength: 808nm
Stripe width: 350um
Output Power: 8W
Cavity Length:2.5mm
For more information, please visit our website: https://www.powerwaywafer.com,
send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
Found in 1990, Xiamen Powerway Advanced Material Co., Ltd [...]
2019-05-09meta-author
Will the Novel Coronavirus-caused Pneumonia affect the company Resumption?
Post by PAM-XIAMEN, Feb.11,2020
The novel coronavirus-caused pneumonia affect the company resumption in short term, but not too much, as currently the epidemic is under control well by quarantine measures. Currently the reworking rate is >=75%, estimate [...]
2020-02-11meta-author
PAM XIAMEN offers FZ Intrinsic undoped Silicon wafers.
Silicon wafers, per SEMI Prime, P/E 4″Ø×525±25μm,
FZ Intrinsic undoped Si:-[100]±0.5°, Ro=(5,000-10,000)Ohmcm,
One-side-polished, back-side Alkaline etched, SEMI Flat (one),
Sealed in Empak or equivalent cassette,
MCC Lifetime>1,000μs.
For more information, please visit our website: https://www.powerwaywafer.com,
send [...]
2019-08-22meta-author
Highlights
•Elaboration of a smooth 3C–SiC membrane on a SiC substrate.
•Faceted surface for the (110) orientation but smoother for the (111) orientation.
•Roughness of the 3C–SiC membrane limited to 9 nm for the (111) orientation.
•New MEMS devices feasible.
•The huge SiC properties could be entirely exploited.
The cubic [...]