The TTMU, powered by SDT's own IP*, analyzes the temporal statistics of photons to evaluate their potential as quantum sources. With exceptional accuracy and scalability, it is indispensable in quantum computing, particle physics, optical communication, and advanced sensor networks. Designed for maximum flexibility, the TTMU enhances experimental convenience and adaptability, empowering researchers to push the boundaries of innovation.
Offers an industry-leading 4 pairs of TDC and 8 input channels, setting a new standard in its product category.
Up to 4 pairs of TDCs can simultaneously measure Start-Stop signals.
Enables flexible assignment of Start and Stop channels for each TDC to any input channel.
Equipped with a Python library, enabling researchers with minimal coding experience to use it effortlessly
Cloud computing supported
Data transmission speeds of up to 1Gbps using Gigabit Ethernet
Provides a customized experimental experience optimized for the user's environment developed with SDT's unique IP*
Patent application numbers 10-2023-0052773, 10-2023-0052774
The TTMU is versatile, supporting applications such as Nitrogen Vacancy Center Microscopy, Hong-Ou-Mandel Interference experiments, Fluorescence Correlation Spectroscopy, Fluorescence Lifetime studies, Quantum Key Distribution, and LiDAR. Its high temporal precision also makes it invaluable for experiments in chemistry and biology.
Seamlessly integrated with cloud computing, the PGU enables scheduling and automation across experimental devices, significantly reducing researchers' manual workload. Additionally, its Python library ensures effortless usability, empowering researchers to conduct experiments without specialized coding expertise.
The TTMU is utilized in Hong-Ou-Mandel interference experiments to determine the presence of a quantum light source by analyzing the degree of H-O-M interference.
H-O-M setup
This product was developed with the support of the National Information Society Agency (NIA) of Korea.
