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Introduction
KTP crystal is the most commonly used for SHG(Frequency doubling) of Nd-doped laser for green/red output. CRYSTECH have finished the largest growing
and  processing
line of KTP crystals and can supply more than 200,000pieces/year
different dimension KTP crystals for the OEM and R&D
requirement. The lowest price and quick delivery (Only a
week) is available for the CRYSTECH KTP crystals. The same,
large quantity usual specification KTP crystals are stocking,
you can view our stocking list.
Potassium Titanyl Phosphate (KTP) has the
following exceptional properties that make it a very important
nonlinear crystal:
 Large nonlinear optical coefficient
Wide angular bandwidth and small walk-off angle
Broad temperature and spectral bandwidth
High electro-optic coefficient and low dielectric
constant
Large figure of merit
Nonhydroscopic, chemically and mechanically stable
High thermal conductivity
Moisture free
Minimum mismatch gradient
Low cost compare with BBO and LBO
KTP
is a positive biaxial crystal, with the principal axes X,
Y, and Z (nz>ny>nx)
parallel to the crystallographic axes a, b, and c, respectively.
Structural and Physical Properties:
| Crystal
structure |
Orthorhombic, space group Pna21,point
group mm2 |
| Cell
parameters |
a=6.404Å,
b=10.616Å,
c=12.814Å,
Z=8 |
| Melting
point |
1172¡ãC incongruent
|
| Curie
point |
936°C
|
| Mohs
hardness |
»5
|
| Density
|
3.01
g/cm3 |
| Color
|
colorless
|
| Hygroscopic susceptibility
|
no
|
| Specific
heat |
0.1643
cal/g°C
|
| Thermal
conductivity |
0.13
W/cm/°K
|
| Electrical
conductivity |
3.5x10-8 s/cm (c-axis, 22°C, 1KHz) |
Linear Optical Properties:
| Transmitting
range: |
350
nm - 4500 nm |
| Refractive
indices:
1064nm
532nm |
nx
ny
nz
1.7377 1.7453 1.8297
1.7780 1.7886 1.8887
|
|
Sellmeier
equations:
(l
in mm)
|
nx2=3.0065+0.03901/(l 2-0.04251)-0.01327l 2
ny2=3.0333+0.04154/(l 2-0.04547)-0.01408l 2
nz2=3.0065+0.05694/(l 2-0.05658)-0.01682l 2
|
|
Therm-optic
coefficients: |
dnx/dT=1.1x10-5/¡ãC,
dny/dT=1.3x10-5/¡ãC,
dnz/dT=1.6x10-5/¡ãC
|
| Absorption
coefficient: |
a <
1% cm-1 @1064nm and 532nm |
Nonlinear Optical Properties:
| Phase
matchable SHG range: |
497
- 1800nm |
|
Nonlinear
optical coefficients: |
d31=6.5pm/v,
d32=5pm/v,
d33=13.7pm/v,
d24=7.6pm/v,
d15=6.1pm/v
|
|
Effective
nonlinearity expressions |
deff(II)» (d24
- d15)sin2fsin2q -
(d15sin2f +
d24cos2f)sinq
|
|
For type
II SHG of a Nd:YAG:
Laser
at 1064nm: |
PM
angle: q=90¡ã, f=23.5¡ã
Effective
SHG coefficient:
deff»8.3xd36(KDP)
Angular
acceptance: 20 mrad-cm
Temperature
acceptance: 25¡ãC-cm
Spectral
acceptance: 5.6 Å
-cm
Walk-off
angle: 4.5 mrad (0.26¡ã)
Optical
damage threshold: > 450MW/cm2, (@
1064nm, 10ns, 10Hz) |
| Electro-optic
coefficients: |
Low
frequency (pm/V) High frequency
(pm/V) |
| r13
|
9.5
|
8.8
|
| r23
|
15.7
|
13.8
|
| r33
|
36.3
|
35.0
|
| r51
|
7.3
|
6.9
|
| r42
|
9.3
|
8.8
|
| Dielectric
constant: |
eeff=13
|
KTP’s Applications:
Frequency doubling (SHG) of Nd-doped lasers for green/red
outputs.
Frequency mixing (SFM) of Nd laser and diode laser
for blue outputs.
Parametric sources (OPG, OPA and OPO) for 600nm-4500nm
tunable outputs.
E-O modulators, optical switches, directional couplers.
Optical waveguides for integrated NLO and E-O devices.
Applications for SHG and SFG of Nd:lasers
KTP is the most commonly used material for
frequency doubling of Nd:YAG lasers and other Nd-doped lasers,
particularly at the low or medium power density. The following
Table lists the major NLO properties of KTP for frequency-doubling
of Nd:YAG laser.
| PM angle |
q=90o,f=23.5o,
where q & f are polar angles referring to Z
and X. |
| Effective SHG
coefficient |
deff »8.3xd36(KDP) |
| Angular
acceptance |
20
mrad-cm |
| Temperature
acceptance |
25oC-cm |
| Spectral
acceptance |
5.6Å-cm. |
| Walk-off
angle |
4.5mrad
(0.26o) |
| Optical damage
threshold |
> 450MW/cm2,
(@ 1.06um, 10ns, 10Hz) |
To date, extra- and intra-cavity frequency
doubled Nd:lasers using KTP have become a preferred green
laser source for many R&D, medical, industrial and commercial
applications. By using extracavity KTP SHG, over 80% conversion
efficiency and 700mJ green laser were obtained with a 900
mJ injection-seeded Q-switched Nd:YAG laser.
Applied to diode-pumped Nd:laser, KTP is
a basic NLO crystal for the construction of compact visible
solid state laser systems. Recent advances in intracavity-doubled
Nd:YVO4 and Nd:YAG lasers have increased the demand for
compact green lasers used in display, construction, optical
disk and laser printer. Over 200 mw TEM00 green outputs
are available from LD pumped Nd:YVO4 and Nd:YAG lasers and
3 W TEM00, mode-locked green laser was generated by intracavity
SHG in a 5.3 W mode-locked diode-laser pumped Nd:YAG laser.
Moreover, 2.5mW green light was obtained from 50mW LD pumped
and intracavity doubled Nd:YVO4 mini-lasers with a 9mm long
cavity.
KTP is also a powerful crystal for SHG and
SFG of laser with wavelength from about 1um to 3.4 um. The
SHG phase-matching angle and effective SHG coefficients
(deff) of KTP in XY plane (0.9 mm to 1.08 mm) and XZ plane
(1.1 um to 3.3 um) are showed as the figtures. Although
KTP cut in YZ plane can be phase-matched for SHG of 1 mm
to 3.45 um, it is seldom used in practices because of the
low deff.
| |
|
|
|
|
| Type ll
SHG in XY Plane |
|
Type ll
SHG in XZ Plane |
|
OPO Pumped
at 1064 nm |
OPG (OPA、OPO)
As an efficient OPO crystal pumped by the
fundamental and second harmonics of a Nd:YAG or Nd:YLF laser,
KTP plays an important role in parametric sources for tunable
output from visible (0.6 um) to mid-IR (4.5 um). The phase-matching
angles and effective NLO coefficient for OPO/OPA pumped
at 532 nm and 1064 nm in XZ plane are showed as following
figures. NCPM KTP OPO pumped by 1064 nm, the signal output
is around eye safe wavelength, find applications in eye-safe
devices. The OPO/OPA in XY and YZ is seldom employed because
of their low effective nonlinear coefficients and other
limitation.
KTP's OPO results in stable, continuous outputs
of femtosecond pulse of 108 Hz repetition rate and miliwatt
average power levels in both signal and idler outputs. KTP's
OPO pumped by a 1064 nm Nd:laser has generated above 66%
conversion efficiency for degenerate conversion from 1064
to 2120 nm.
The recently developed new application is
the non-critical phase-matched (NCPM) KTP OPO/OPA pumped
by the tunable lasers such as Ti:Sapphire, Alexandrite and
Cr:LiSrAlF6 (see right figure). The NCPM KTP OPO keeps the
KTP crystal fixed in X-axis and tunes the pumping wavelength.
If a tunable Ti:Sapphire laser is used as a pumping source
(0.7 um to 1 um), the output can cover the wavelength range
from 1.04 um to 1.45 um (signal) and from 2.15 um to 3.2 um (idler). Due to the favorable NLO properties of NCPM
KTP, as high as 45% conversion efficiency was obtained with
narrow output bandwidth and good beam quality.
Quasi-Phase-Matched Waveguide
Recently, type II SHG conversion efficiency
of 20%/W/cm2 was achieved by quasi-phase matched waveguide
doubler, in which the phase mismatch from one section is
balanced against a phase mismatch of the opposite sign from
a second section. Furthermore, segmented KTP waveguides
have been applied to type I quasi-phase-matchable SHG of
0.76-0.96 um for tunable Ti:Sapphire laser and directly doubled
diode laser for 0.43-0.40 um output. Conversion efficiency
in excess of 100%/W/cm2 has been obtained.
NCPM KTP for OPO
 |
|
 |
| Efficiency of KTP
elements in OPO 1064 - 1570 nm |
The recently developed new application is
the non-critical phase-matched (NCPM) KTP OPO/OPA application.
The NCPM KTP OPO keeps the KTP crystal fixed in X-axis and
tunes the pumping wavelength. If 1064nm pumping source,
the output will be at 1.57um (signal) and 3.3 um (idler).
Due to the favorable NLO properties of NCPM KTP, as high
as 45% conversion efficiency was obtained with narrow output
bandwidth and good beam quality.
Oven for heating KTP crystals:
Increasing the temperature of KTP crystal
can enhance the damage threshold of KTP crystal. Therefore,
for high power or high power density SHG of Nd lasers, heating
KTP to a certain temperature (e.g., 80oC) is recommended.
CRYSTECH provides precision oven with temperature controller
for heating KTP. A full assembly including KTP crystal,
oven and temperature controller is also available.
KTP Specifications:
Transmitting wavefront distortion: less than
l/4 @ 633 nm
Dimension tolerance: (W ± 0.1 mm) x (H ±
0.1 mm) x (L + 0.2 mm/-0.1mm)
Clear aperture: > 90% central area
Flatness: l/8 @ 633 nm
Scratch/Dig code: 10/5 to MIL-O-13830A
Parallelism: better than 20 arc seconds
Perpendicularity: 5 arc minutes
Angle tolerance: Dq <
±0.5°, Df < ± 0.5°
AR coating: R< 0.2% at 1064nm and R<1.0%
at 532 nm.
Quality Warranty Period: one year under proper
use.
Crystech Warrant:
More than 200,000pcs/year ability
High inside quality without any defection.
Large crystal size up to 20x20x40mm3
Low absorption at 532nm
Large quantity standard products in-stock
Fast delivery. (1-2 weeks ARO )
Strict quality control;
Standard Products
| Part
No. |
Dimension
|
Application
|
Coating
|
Type
|
| KTP02203
|
2x2x3mm
|
SHG@1064nm
|
AR/HR
coating |
II
|
| KTP2205 |
2x2x5mm
|
SHG@1064nm
|
AR/AR
coating |
II
|
| KTP2305 |
3x3x5mm
|
SHG@1064nm
|
DBAR-coating
|
II
|
| KTP2310 |
3x3x10mm
|
SHG@1064nm
|
DBAR-coating
|
II
|
| KTP2705 |
7x7x5mm
|
SHG@1064nm
|
DBAR-coating
|
II
|
| KTP2805 |
8x8x5mm
|
SHG@1064nm
|
DBAR-coating
|
II
|
| KTP2907 |
9x9x7mm
|
SHG@1064nm
|
DBAR-coating
|
II
|
| KTP0720 |
7x7x20mm
|
OPO
for 1064nm&1570nm
|
AR
coating |
II
|
AR Coating: AR@1064nm&532nm; HR Coating: HR@1064nm&HT@532nm
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