THz transmission setup with different stages of completeness.
Pos. |
Quantity |
Description |
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1 |
1 piece |
THz transmission setup for 780 nm femtosecond laser, consisting of: · THz emitter and detector photoconductive antennas, including aspheric optical focusing lenses for optical laser beam and hyperhemispherical silicon substrate lenses for THz beam · 4 parabolic mirrors with 50 mm diameter and 50 mm focus length · breadboard 600 mm x 450 mm x 50.8 mm with the adjusted and tested THz antennas and mirrors · description of the setup with test report and with marked positions on the breadboard for the needed additional optical parts
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2 |
1 piece |
THz transmission setup for 780 nm femtosecond laser, consisting of: · THz emitter and detector photoconductive antennas, including aspheric optical focussing lenses for optical laser beam and aspheric focusing silicon substrate lenses for THz beam with 50 mm focus length. The performance of this setup is the same as in Pos. 1 · breadboard 600 mm x 450 mm x 50.8 mm with the adjusted and tested THz antennas. The THz antenna distance is 100 mm. The THz focus is in on the midpoint between the antennas · description of the setup with test report and with marked positions on the breadboard for the needed additional optical parts
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3 |
1 piece |
Complete optical THz transmission time-domain spectrometer setup for 780 nm femtosecond laser, consisting of: · THz emitter and detector photoconductive antennas, including aspheric optical focussing lenses for optical laser beam and aspheric focusing silicon substrate lenses for THz beam with 50 mm focus length · optical delay line with 150 mm displacement for delay of 1 ps · Beam splitter for fs-laser and 4 mirrors for optical alignment of the complete THz setup · breadboard 600 mm x 450 mm x 50.8 mm with the adjusted and tested optical elements for the complete THz spectrometer. The THz antenna distance is 100 mm. The THz focus is on the midpoint between the antennas · description of the THz setup with test report |
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4 |
1 piece |
Complete THz transmission time-domain spectrometer for 780 nm femtosecond laser, consisting of: · Complete THz transmission setup as described in Pos. 3 · Pulse generator as power supply for the emitter, preamplifier, which is integrated in the detector, and lock-in amplifier. The supply voltage for these electronic devices is 115 .. 230 V. · Computer with spectrometer software for time-domain THz spectroscopy. The software allows measurement of THz pulse and calculates in-situ the THz spectrum. It includes the calibration procedures for 100 % transmittance and the calculation of the spectral transmittance and absorbance of a sample. · Instruction manual for the THz spectrometer and test report |
Data
sheet for THz transmission spectrometer
with 780 nm fs laser with pulse duration < 120 fs and mean optical output power
> 50 mW
mean THz power PTHz ~ 5 µW
THz signal/noise amplitude 104
useful spectral region 0.05 – 2.5 THz
THz focus position 50 mm away from the antennas
Fast scan duration 10 s
Slow scan duration 8 min (resolution
Δν
= 2.5 GHz, 200 ps scan)
New THz band pass and long pass optical filters based on porous silicon and metal mesh technologies
Terahertz products from Del Mar Photonics
GaP crystals fro THz generation - ZnTe crystals for THz generation
|
Terahertz Spectroscopy: Principles and Applications (Optical
Science and Engineering) ~ Susan L. Dexheimer The development
of new sources and methods in the terahertz spectral range has generated
intense interest in terahertz spectroscopy and its application in an array
of fields. Presenting state-of-the-art terahertz spectroscopic techniques,
Terahertz Spectroscopy: Principles and Applications focuses on time-domain
methods based on femtosecond laser sources and important recent applications
in physics, materials science, chemistry, and biomedicine. |
Principles of Terahertz Science and Technology (Lecture Notes in Physics) ~ Yun-Shik Lee Principles of Terahertz
Science and Technology aims to elucidate the fundamentals of THz technology
and science for potential new users. It surveys major techniques of
generating, detecting, and manipulating THz waves and also discusses a
number of essential processes where THz waves interact with physical,
chemical, and biological systems. This book serves as an introduction to THz
technology for new researchers in various fields. |
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Terahertz Science And Technology For Military And Security Applications (Selected Topics in Electronics and Systems) ~ Dwight L. Woolard The inherent advantages and potential payoffs of the
terahertz (THz) regime for military and security applications serve as an
important driver for interest in new THz-related science and technology. In
particular, the very rapid growth in more recent years is arguably most
closely linked to the potential payoffs of THz sensing and imaging
(THz-S&I). |
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Terahertz Optoelectronics ~ Sakai, Kiyomi
The book presents recent and important developments in the field of terahertz radiation with a particular focus on pulsed terahertz radiation. Situated in the gap between electronics and optics, the terahertz frequency range of the electro-magnetic spectrum has long been neglected by scientists and engineers due to a lack of efficient and affordable terahertz sources and detectors. The advent of femtosecond lasers in the 1980s and photoconductive switches in 1984 have made the terahertz gap accessible, while at the same time advances in electronics and optics have made it narrower. Research activities in terahertz frequencies have risen dramatically since that time, funding has increased by a factor of 100 in the last decade. The reviews by leading experts are of interest to researchers and engineers as well as advanced students. |
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Intense Terahertz Excitation of Semiconductors ~ S. G.
Ganichev Product DescriptionIntense Terahertz Excitation of
Semiconductors presents the first comprehensive treatment of high-power
terahertz applications to semiconductors and low-dimensional semiconductor
structures. Terahertz properties of semiconductors are in the center of
scientific activities because of the need of high-speed electronics. This
research monograph bridges the gap between microwave physics and photonics.
It focuses on a core topic of semiconductor physics providing a full
description of the state of the art of the field. |
|
Terahertz Frequency Detection and Identification of Materials and Objects ~ R.E. Miles Terahertz frequency sensing has
a unique part to play in the detection and identification of materials and
objects. This frequency range, corresponding to a wavelength of around 0.1
mm, can be used to identify materials from their molecular spectra and to
produce images of concealed objects. Terahertz spectra of drugs of abuse and
explosives presented by a number of the contributing authors show that the
presence of these materials can be detected in envelopes, packages and
through clothing. |
Band pass filters with center wavelengths from 30 THz into GHz range
Long pass filters with standard rejection edge wavelengths from 60 THz into GHz range
Del Mar Photonics, Inc.
4119 Twilight Ridge
San Diego, CA 92130
tel: (858) 876-3133
fax: (858) 630-2376
Skype: delmarphotonics
sales@dmphotonics.com
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