PPLN & PPSLT Crystal Ovens

Applications:

Thermal stabilization of PPLN and PPSLT crystals
Quasi-phase-matched wavelength conversion
Frequency doubling and mixing systems
Laboratory and R&D laser platforms
Production and OEM photonics systems

PPLN and PPSLT crystal ovens are designed to keep nonlinear optical crystals at a stable, precisely controlled temperature—an essential requirement for accurate and repeatable wavelength conversion in laser systems.

Because crystals such as PPLN and PPSLT are highly sensitive to temperature, even small fluctuations can affect performance. These bench-top ovens gently and evenly heat the crystal, ensuring consistent output, improved efficiency, and long-term reliability.

The system includes two parts:

A digital temperature controller, which precisely regulates heat
A crystal oven, which evenly distributes heat around the crystal

Together, they provide stable operation from room temperature up to 200 °C, making them ideal for laboratory, development, and production environments.

Technical Overview

The DTR Series Digital Thermo Regulator is a bench-top thermal stabilization system designed for nonlinear optical crystals such as PPLN and PPSLT. The system provides precise temperature control from ambient conditions up to 200 °C, ensuring stable quasi-phase-matched operation in nonlinear wavelength conversion applications.

The system consists of a microprocessor-based thermo controller module and a dedicated crystal oven. Operating in PID control mode, the controller regulates crystal temperature via a semiconductor switch output and an RTD temperature probe input. An embedded current-loop receiver combined with a 16-bit pulse-width modulator (PWM) delivers long-term temperature stability better than 0.05 °C RMS.

The crystal oven incorporates a nonlinear crystal holder, a temperature-to-current converter, and a coaxial heater designed to provide highly uniform thermal distribution. The oven housing is constructed from thermally insulating materials to minimize external temperature influence and improve stability.

Standard oven geometry accommodates nonlinear crystals with a 5 × 5 mm cross-section and variable crystal lengths. Larger crystal formats are available upon request.

Key Features and Benefits

Temperature range from room temperature to 200 °C
High-precision PID temperature control
Long-term stability better than 0.05 °C RMS
Homogeneous heating via coaxial heater design
RTD temperature probe input
Digital LCD display with intuitive controls
Compact bench-top configuration

Specifications

Electrical

Power supply

24 VDC
2A max

Power consumption

48W max

Refractive Index, 1064nm

n^o = 2.2340, n^e = 2.1554

Electro-optic Coefficients at 633nm [pm/V] (constant tension)

r_{13 =}9.6 г₂₂ = 6.8 г₃₃ = 30.9
r_{51 =}32.6 r_c = 21.1

Mechanical

Power supply

155 x 142 x 51 mm

Crystal Oven dimensions

Diameter = 50.8 mm
Length = crystal length [mm] + 26 mm

Crystal Oven mounting

2” laser kinematic mount (sold separately)

Environment

Operating humidity

20 … 80 RH% (without condensation)

Functional Features

Temperature range

A. 25-100 °C (DTR 100)
B. 25-150 °C (DTR 150)
C. 25-200 °C (DTR 200)

Heating/Cooling rate

2, 4, 6 and 8 °C/min

Temperature stability

0.02°C

Set point precision

0.1°C

Display resolution

0.1°C

Temperature Sampling rate

5 samples per second

Contact us to discuss specifications, custom requirements, or production volumes.

Call us at (973) 361-2222 or (973) 328-7000, or click here to contact us.