Applications
Benefit from Swabian Instruments' Time Tagger Series for your cutting edge research. Discover the range of applications that use our products.
Optically Detected Magnetic Resonance (ODMR)
Optically detected magnetic resonance (ODMR) is a powerful technique widely used in quantum sensing, magnetic field measurement, and material analysis.
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Quantum Communication
Quantum communication describes cutting-edge techniques to distribute information using the quantum properties of single photons. One of the most important applications is providing secure channels of communication using a technique known as quantum key distribution (QKD).
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Single-Photon Counting Raman Spectroscopy
The single-photon counting Raman spectroscopy combines the principles of Raman spectroscopy with single-photon counting techniques, enabling the detection of weak Raman signals even at low analyte concentrations
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Photon Number Resolution (PNR)
Photon number resolution (PNR) is an enabling technique used to assign the number of photons involved in a detection event precisely.
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Dynamic Light Scattering (DLS)
Dynamic light scattering (DLS) is an optical analysis method for particle sizes in solutions
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Fluorescence Lifetime Imaging (FLIM)
Discover fluorescence lifetime imaging (FLIM), a powerful imaging technique for mapping fluorescence lifetimes with picosecond precision. Learn how Swabian Instruments' Time Taggers enable high-resolution FLIM measurements using advanced timing electronics, supporting detectors like PMTs, SPADs, and SNSPDs for cutting-edge research applications
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Single Photon Microscopy
Did you ever wish you could save time by having all signals from your setup captured by one single device and made available to you by a versatile and intuitive software engine?
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Linear Optics Quantum Information (LOQI)
Explore Linear Optics Quantum Information (LOQI) and its applications in quantum computing and secure communication. Learn about Swabian Instruments' Time Taggers and their role in precise photon detection, timing, and analysis for advanced quantum experiments.
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