The NMR‑01 is a precision-engineered Nuclear Magnetic Resonance (NMR) experimental setup, designed for advanced teaching and research in solid-state and molecular physics. It allows in-depth exploration of resonance phenomena in hydrogen nuclei, including measurement of gyromagnetic ratio, relaxation times, and resonance conditions in static magnetic fields.

The system consists of a high-stability electromagnet, RF transmitter/receiver circuit, probe coil, and digital display for resonance frequency and signal amplitude. The setup is optimized for clarity and ease of understanding, making it ideal for students to learn NMR fundamentals while still being capable of supporting research-level precision.

This apparatus is suitable for both undergraduate physics labs and postgraduate research programs, providing a real-time hands-on platform for investigating nuclear spin behaviors.

Key Features

• Complete NMR system with electromagnet, RF coil, and signal detection

• Studies proton resonance in water and hydrocarbons

• Measures gyromagnetic ratio, resonance frequency, and relaxation times (T₁, T₂)

• Precision magnetic field control and calibration

• Output compatible with CRO or digital oscilloscope

• Includes sample holder, power supply, and experimental manual

Applications

• Study of Nuclear Magnetic Resonance in hydrogen nuclei

• Measurement of spin-lattice (T₁) and spin-spin (T₂) relaxation times

• Determination of gyromagnetic ratio

• Research in molecular structure, solid-state physics, and quantum mechanics

• Used in B.Sc., M.Sc., and research labs for demonstration and experimentation