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Integrated THz time domain spectrometer | SIMTRUM Photonics Store

Products / Light Analysis /Spectrometers /THz time domain spectrometer /Integrated THz time domain spectrometer /
Integrated THz time domain spectrometer
Overview Specifications Sales Guide Order Now!
SIMTRUM'S integrated terahertz time-domain spectrometer integrating transmission, reflection and attenuated total reflection (ATR) three measurement modes. The three measurement modes can be switched flexibly, and the operation mode is better than that of similar products in the same industry. The integrated edge computing computing power supports AI software development. It is suitable for various terahertz spectral application analysis and research.

Features

  • Simultaneous detection of graph and spectrum
  • Wide spectral range
  • High resolution
  • High detection speed
  • Plug-in installation, no optical path adjustment
  • Innovative ATR model
  • Support AI software secondary development

 

ATR mode

Attenuated total reflection (ATR) technology is used to make terahertz waves fully reflected on the surface of the silicon prism, and at the total reflection point, the evanescent wave interacts with the sample, making the incident terahertz waves attenuated. By detecting the reflected terahertz waves, The optical parameters (absorption coefficient, refractive index and complex dielectric constant) of the sample in the terahertz range can be obtained.

 

Applications

  
Identification of isomers

 

Identification and theoretical simulation of different crystal forms

 

Identification of isomers

 

Nondestructive testing

Product Specifications

Sample type Dielectric materials like solid, powder, liquid, etc. / non-metallic materials
major function Measurement pattern It has three measurement modes of transmission, reflection and attenuated total reflection (ATR), with the function of spectrum formation and imaging, and the function of spectrum integrated display.
Spectral line type Time domain spectrum, frequency domain spectrum, absorption spectrum, refractive index spectrum, permittivity spectrum
Imaging mode Time-domain imaging, frequency domain imaging, absorption imaging, maximum / minimum time of flight imaging, maximum / minimum peak imaging, peak peak imaging
Spectral / image processing algorithm We provide three-bit tomographic algorithm package that can be customized for classification, detection, and quantitative analysis algorithm package.
performance index Spectrum range 0.1-5 THz
Spectrum resolution Better than 5 GHz (measured water vapor absorption spectrum resolution)
Scanning scope ≥500 ps
Dynamic range Better than 90 dB
Detection speed ≥24 Hz@67 ps、≥18 Hz@134 ps、≥10 Hz@330 ps
Focused spot diameter 1 mm (signal decay 50%)
Appendix Dehumidification module, probe module
Navar AI atlas analysis edge computer, Ubuntu system, Python SDK
Service environment Temperature range: 10~30℃; relative humidity: 80%
 
Spectral curve
 
Dimension

Sales Guide

Items Detail Unit Remark
1. What is the application?      
2. Determine whether to configure the fs laser?     fs laser is the standard configuration of THz-TDS, the shorter the laser pulse, the higher the time resolution of the system time
3. Repetition rate of laser?     The laser frequency range is usually tens of thousands of Hz to hundreds of thousands of Hz, the higher the repetition frequency, the faster the data acquisition speed, but it will introduce noise
4. What frequency range is required? 0.1-5 THz  
5. What spectral resolution is required? 5 GHz  
6. Requirements for detection speed?     ≥24 Hz@67 ps、≥18 Hz@134 ps、≥10 Hz@330 ps
7. Which measurement mode is required?     Three measurement modes of transmission, reflection and attenuated total reflection can be provided
8. According to the measurement mode, the corresponding measurement probe is equipped     Transmission, reflection, attenuation total reflection(ATR) measurement probe is optional
9. Reflection Angle requirement of reflection probe?     Probes with three reflection angles of 15°/20°/45° are available
10. Check whether the scan module needs to be configured?      

 

Working Principle

The working principle of THZ-TDS can be divided into two main parts: excitation (producing THz pulses) and detection (measuring THz pulses). The entire process is based on ultrafast laser pulse technology and usually involves the following steps:

 

1. Excitation (generate THz pulse)

Laser source: The THz-TDS system uses ultrafast laser pulses (usually femtosecond laser pulses) as the excitation source.

Photoelectric effect: When a laser pulse is irradiated onto a semiconductor material such as germanium (Ge), germanium phosphide (GaAs) or gallium arsenide (InGaAs), the photoelectric effect is excited. The laser pulse causes electrons in the semiconductor material to be excited, resulting in a brief pulse of electric current (THz radiation).

THz wave generation: This current pulse generates THz waves (THz radiation) through acceleration inside the material. Due to the broad spectrum nature of the laser pulse, these THz waves usually contain broadband information from low to high frequency, so they can provide comprehensive frequency information for subsequent spectral analysis.

 

2. Detection (measuring THz pulse)

Detectors: THZ-TDS utilizes photodetectors (usually also photodiodes based on materials such as GaAs, InGaAs, etc.) to detect electrical signals caused by THz radiation. When the detector receives the THz pulse, it can generate the corresponding electrical signal.

Electric field sampling: The detector usually measures the change in the electric field of the THz pulse when it is received. In order to obtain the complete THz waveform in time domain, the system captures the amplitude and phase information of THz wave by precisely controlling the time delay between the detection pulse and the excitation pulse, so as to realize the complete time domain measurement of THz wave.

 

3. Data processing

Fourier Transform: By obtaining the complete waveform of the THz wave in the time domain, the THZ-TDS system uses Fourier Transform to convert the time domain signal into the frequency domain signal. At this time, the resulting spectrum contains the frequency component of the THz wave, which can provide detailed spectral characteristics of the material or substance in this frequency band.

Analysis and interpretation: The absorption characteristics, refractive index, optical constant and other information of the material can be extracted from the frequency domain spectrum. Thus, THz-TDS can be used to study the electromagnetic properties of materials (e.g., dielectric constant, optical transmission properties, etc.).


 

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Search Reset
Compare Model Drawings & Specs Availability Reference Price
(USD)
LA-HT01-TDS-INT
Spectrum range: 0.1-5 THz; Spectral resolution: Better than 5 GHz; Scanning range: ≥500 ps; Dynamic range: better than 90 dB; Detection speed: ≥24 Hz@67 ps/≥18 Hz@134 ps/≥10 Hz@330 ps; Focus spot diameter: ≤1 mm (signal attenuation of 50%) 		4~6 weeks $65937.88

THz attenuated fully reflected optical circuit fast plug module TA-ATRSG40 - Parameter

THz reflected optical transceiver TA-RPSG40 - Parameter

THz transmission optical transceiver TA-TPSG40 - Parameter

LA-HT01-TDS-INT - Parameter

THz attenuated fully reflected optical circuit fast plug module TA-ATRSG40 - Download

THz reflected optical transceiver TA-RPSG40 - Download

THz transmission optical transceiver TA-TPSG40 - Download

LA-HT01-TDS-INT - Download

Accessories

Compare Model Drawings & Specs Availability Reference Price
(USD)
THz transmission optical transceiver TA-TPSG40
Measurement mode: transmission spectrum, transmission imaging; Imaging range: ≥ 20 * 20mm 		4~6 weeks $4004.32
THz reflected optical transceiver TA-RPSG40
Measurement modes: reflection spectrum, reflection imaging; Imaging range: ≥ 20mm * 20mm 		4~6 weeks $3603.89
THz attenuated fully reflected optical circuit fast plug module TA-ATRSG40
Measurement mode: Attenuated total reflection spectrum; Crystal material: high resistance silicon; Crystal structure size: Standard size: trapezoidal structure, bottom angle 60 °, surface length 365mm, surface width 15mm. Size can be customized. Crystal fixing method: magnetic attraction fixing, cylindrical pin positioning, crystal removable cleaning; Measurable sample range: The maximum refractive index of the measurable sample is 3.18 (terahertz band) 		4~6 weeks $4404.76

Sales Enquiry:+65 6996 0391       Email:info@simtrum.com      

Address:Blk 71, #06-03, Ayer Rajah Crescent Singapore 139951

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