To accurately and precisely create multiple pulses with a long time delay (delay) at a resolution of picoseconds (ps) and to measure that time difference accurately and precisely, general equipment cannot achieve the necessary precision or resolution at all. - The T560 delay/pulse generator from Highland Technology can set the delay time and pulse width individually for 4 channels in increments of 10 ps, up to a maximum of 10 seconds. - The MCS8A multi-stop TDC/TOF from FAST ComTec can detect the time difference between the START signal and 8 input STOP signals in increments of 80 ps, up to a maximum of 8.3 days.

Detectors and sensors that detect charge (charge) proportional to the strength of energy include APD (Avalanche Photodiode), PMT (Photomultiplier Tube: Photomultiplier), and MEMS capacitive accelerometers. In charge-sensitive preamplifiers, an output proportional to the amount of charge received from the detector is obtained. Gaussian shaping amplifiers shape long tail pulse waveforms into Gaussian function waveforms. Baseline restorers (recovery circuits) are modules that correct baseline shifts and are effective for high count rate input pulses. Using evaluation boards and aluminum housings makes it easy to verify inputs from the target detector. Finished products of charge-sensitive preamplifiers include those compatible with the high voltage bias of the detector and specialized products for photomultipliers and SiPMs. Finished products of Gaussian shaping amplifiers are available in eight types with different shaping times.

NMR (Nuclear Magnetic Resonance) is the most precise technology for measuring magnetic fields, and the PT2026 is the most accurate NMR magnetometer on the market. - Under optimal conditions, it can achieve high precision of less than 10 ppb. - It features high magnetic field compatibility, robustness in inhomogeneous magnetic fields, a measurement speed of 33 Hz, and improved search time. - Designed with the latest high-frequency technology and computer technology, the NMR magnetometer can explore many new applications. There are three types of pulse wave probes for measuring magnetic fields, which can flexibly accommodate various measurement ranges. - It can be connected with just one RF cable, making plug insertion and removal easy. - The 1326 probe incorporates a 3-axis Hall element probe, which accelerates the search for NMR signals. - The 1426 probe has a remote passive measurement head that fits into narrow gaps, allowing it to operate in high-radiation environments without damaging electronic components. - The 1526 probe features a remote active measurement head that fits into narrow gaps, improving the S/N ratio by processing NMR signals locally and allowing for longer cable lengths.