At present, most InAs/GaSb ll superlattices are grown on lattice matched GaSb substrates. However, due to the high price of GaSb substrate, the absence of semi-insulating substrate, and the complexity of the process, seeking to grow GaSb bulk materials on new substrates, such as [...]
2023-02-01meta-author
PAM XIAMEN offers6″ FZ Silicon Wafer-5
Silicon wafers, per SEMI Prime, P/E 6″Ø×875±25µm,
FZ p-type Si:B[111]±0.5°, Ro > 10,000 Ohmcm,
Warp<60μm,
One-side-polished, Particles: ≤10@≥0.3μm,
MCL (Na, Al, K, Fe, Ni, Cu, Zn)<5E10/cm²,back-side etched,
Tarnish, orange peel, contamination, haze,
micro scratch, chips, edge chips, crack,
crow feet, pin hole, pits, dent, waviness,
smudge&scar on [...]
2019-09-19meta-author
Gallium Nitride (GaN) is the basic material of blue LED and has important applications in LED and ultraviolet laser.
PAM-XIAMEN can epitaxially grow GaN wafers for LED and LD. For more wafer specification please visit:https://www.powerwaywafer.com/gan-wafer/epitaxial-wafer.html. How do we grow GaN LED epiwafer on sapphire?
Please click [...]
2023-04-26meta-author
PAM XIAMEN offers test grade silicon wafers
Below is just a short list of the test grade silicon substrates!
Inches
Cust class
Dopant
Type
Orientation
PFL length
PFL direction
SFL
Off orientation
Resistivity
Diameter
Thickness
Bow
TTV
Warp
6
DSP
Phosphorus
N
100
57,5 ± 2,5
110 ± 0,50
0.0 ± 0.25 °
1.5 ± 0.5 Ohmcm
150 ± 0.5 mm
280 ± 2.5 µm
30
1,25
30
6
DSP
Phosphorus
N
100
57,5 ± 2,5
110 ± 0,20
0.0 ± 0.5°
1-4 Ohmcm
150 [...]
2019-02-25meta-author
PAM XIAMEN offers 3″CZ Prime Silicon Wafer
Item3, 50pcs
Silicon wafer:
i. Diameter: 76.2 mm ± 0.5 mm,
ii. Thickness: 375μm ±25μm
iii. Doping: P type
iv. Orientation: (100) ± 0.5°
v. TTV: ≤ 5 μm
vi. Bow and Warp: ≤ 20 μm
Growth: CZ
[...]
2020-03-25meta-author
Single-emitter LD Chip 808nm @10W
PAM200914-LD-CHIP-808nm
Brand: PAM-XIAMEN
Wavelength: 808nm
Stripe width: 190um
Output Power: 10W
Cavity Length:4mm
Operation
Symbol
Min.
Typ.
Max.
Unit
Center wavelength
λ
—
808
—
nm
Output powe
P。
—
10.5
—
w
Operation mode
—
—
CW
—
—
Geometrical
Emitter width
w
—
190
—
μm
Cavity length
L
—
4000
—
μm
Chip width
W
—
500
—
μm
Chip height
H
—
150
—
μm
Electro Optical Data
Threshold curen
Ith
—
1.6
—
A
Operating current
Iop
—
10
—
A
Operating voltage
Vop
—
1.8
—
V
Slope efficiency
ηd=PJ(lop-Ith)
—
1.2
—
WIA
Total conversion efficiency
η=Po/(lopxVop)
—
58
—
%
Slow axis divergence
θn”
—
10
—
degrees
Fast axis divergence
θ1
—
35
—
degrees
Spectral width
△λ
—
3
—
nm
Polarization
—
—
TE
—
—
For more information, please contact us email [...]
2019-05-09meta-author