1. Development of SQUID based TDEM system and its utilization for field survey at Tumallapalle, Andhra Pradesh, India.
- Author
-
Mohanty, Ijee, Nagendran, R., Bisht, Lata, Thanikai Arasu, A.V., Baskaran, R., Kumar, B.V.L., and Verma, M.B.
- Subjects
- *
SUPERCONDUCTING quantum interference devices , *SQUIDS , *INDUCTION coils , *URANIUM mining - Abstract
This paper describes the development of low T c SQUID (Superconducting Quantum Interference Device) based TDEM (Time Domain Electro-Magnetic) system for geophysical applications. The SQUID system has been used to perform central loop TDEM sounding measurements near Tumallapalle Uranium mine, Cuddapah (dt), AP, India, where the terrain consists of a thin conducting layer below which low grade Uraniferous Phosphatic Siliceous Dolostone is present. Locating the thin conducting layer which is covered by a thick and highly resistive layer is a challenging task due to the induction of weak eddy currents. In order to enhance the resolution of the target located at larger depth, it is essential to apply larger transmitter moment and use a sensitive receiver. In this work, we combine the use of sensitive SQUID sensor and transmitter loop with larger size to achieve better target resolution. The survey has been performed using transmitter loop sizes of 100 m × 100 m and 400 m × 400 m. In order to compare the performance of the SQUID based TDEM system, the same experiments have also been repeated using induction coil as receiver which has been built for this work. In this article, we describe in detail the results obtained from the central loop TDEM measurements. • TDEM sounding measurements with low Tc SQUID at Tumallapalle, AP, India. • Experimental site is a thin conductive layer buried under high resistive layer • Enhanced depth of investigation with transmitter moment • Better target resolution achieved by SQUID compared to fluxgate and induction coil [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF