Showing results: 16 - 30 of 129 items found.
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Physical Sciences Inc.
QCL sensors use mid-infrared semiconductor laser sources, either intraband Quantum Cascade Lasers or Interband Cascade Lasers to enable high precision, high accuracy, and selective detection of trace gases such as greenhouse gases and chemical agents with application to a variety of commercial, industrial, defense and environmental problems.
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Zurich Instruments AG
In 2018, Zurich Instruments introduced the first commercial Quantum Computing Control System (QCCS), designed to control more than 100 superconducting and spin qubits. Each component of the QCCS is conceived to play a specific role in qubit control, readout and feedback, and operates in a fully synchronized manner with the other parts of the system. LabOne®, the Zurich Instruments control software, enables fast access to qubit data and facilitates the integration into higher-level software frameworks.
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LP471PAR02 -
Delta OHM S.r.L.
Quantum-radiometric probe for measuring the PHOTONS FLOW in the chlorophyll field PAR (photosynthetically Active Radiation 400…700 nm), μmol m-²s-¹ measure, opaline quartz diffuser for cosine correction.
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LP471PAR -
Delta OHM S.r.L.
Quantum-radiometric probe for measuring the PHOTONS FLOW in the chlorophyll field PAR (photosynthetically Active Radiation 400nm…700 nm), μmol m-²s-¹ measure, cosine correction diffuser.
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Quantum Design MPMS®3 -
Quantum Design Inc.
Quantum Design's MPMS 3 represents the culmination of 40 years of development and design in the world of SQUID Magnetometry. Providing users with the sensitivity of a SQUID (Superconducting QUantum Interference Device) magnetometer and the choice of multiple measurement modes, the MPMS 3 offers new levels of performance in magnetic research while including those aspects of past Quantum Design SQUID magnetometers that customers have grown to appreciate and depend on.
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LaserTune™ -
Block Engineering, LLC
Block Engineering's next generation LaserTune represents a significant leap forward in offering the ultimate mid-IR, pulsed Quantum Cascade Laser (QCL) source to meet the ever challenging requirements of the research community. The fully integrated "single box" concept has been taken to new extremes with a significant reduction in footprint size, saving considerable laboratory bench space. This single box also offers the widest gap-free tuning range available on the market of 5.4 - 12.8 microns. No external power supply or control peripherals are required.
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Mini-QCL™: -
Block Engineering, LLC
The Mini-QCL module is a miniaturized version of Block's LaserTune tunable QCL source, designed for OEM applications. Measuring approximately 1 cubic inch in size, each Mini-QCL module offers a 250 cm-1 tuning range. Modules are available within the same industry-leading tuning range as the full LaserTune instrument of 5.4 - 12.8 microns.
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Teledyne LeCroy quantumdata
Teledyne LeCroy offers a wide variety of products for engineers in the R&D lab. R&D testing entails functional testing for source and sink devices as well as interoperability testing for diagnosing problems between A/V devices. Solutions for silicon chip manufactures are available for both source and sink devices. Quantum Data solutions are available for testing HDMI, MHL, DisplayPort, HDBaseT and 3G-SDI products.
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Quantum SMART Fixture -
Accel-RF Corporation
Accel-RF Corporation, the world leader in turnkey RF automated reliability test instruments, has "unplugged" the industry-leading RF SMART Fixture from their automated test platform and made it available for benchtop test. The NEW Quantum SMART Fixture is a programmable self-contained DC bias and RF stimulus control module capable of synchronizing sequenced independent pulsed-bias and pulsed-RF signals to a DUT or remote fixture. The signals are controlled from a user interface compatible with Accel-RF's LIFETEST software. The Quantum SMART fixture is capable of "active" temperature control and monitoring of a remote DUT through embedded firmware in the microprocessor
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Teledyne e2v
With our expertise in both space and quantum technology we are exploring space based quantum instruments. CASPA is Teledyne e2v’s satellite platform for developing and demonstrating quantum scientific sensors and precision atomic timing in space.
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CN6000 Series -
ID Quantique SA
The Centauris CN6000 encryptors may be upgraded to quantum cryptography through the addition of the Cerberis Quantum Key Distribution (QKD) server to ensure that the solutions are quantum-safe for the long-term protection of sensitive data. This also ensures investment-protection of the encryptors. Such quantum cryptography is provably secure, ensures anti-eavesdropping detection and provides long-term forward secrecy against brute force hacking and attacks by quantum computers.
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CN8000 Series -
ID Quantique SA
The CN8000 harnesses the power of quantum mechanics to help ensure secure communications – the encryption keys are generated by IDQ’s Quantum Random Number Generator to guarantee inherent and provable randomness. The CN8000 can also be upgraded to be quantum-safe via the Cerberis QKD Blade (quantum cryptography) to ensure long-term protection of the data in transit.
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AOSense
Rack-based laser systems for quantum research/applications.
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ID Quantique SA
Quantis is a family of hardware random number generators (RNG) which exploit elementary quantum optical processes as a source of true randomness (cf. Wikipedia: physical phenomena with quantum random properties). Photons (light particles) are sent, one by one, onto a semi-transparent mirror and detected. The exclusive events (reflection or transmission) are associated to “0” or “1” bit values. Such quantum processes provide instantaneous and inexhaustible entropy.
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Lightway (PQY-01) -
Shimadzu Corp.
This system can measure the number of photons absorbed, which is necessary for calculating the quantum yield of photoreactions.