Low-Temperature Magnetic Susceptibilities of Some Hydrated Formates of Cu++ and Mn++

Abstract

The magnetic susceptibilities of powdered specimens of Cu(HCO₂)₂·4H₂O, Cu(HCO₂)₂·2H₂O, and Mn(HCO₂)₂·2H₂O have been measured by an audio‐frequency mutual‐inductance method between 1.3° and 4.2°K, and from 14° to 20°K. At hydrogen temperatures Cu(HCO₂)₂·2H₂O and Mn(HCO₂)₂·2H₂O exhibit Curie—Weiss behavior which, however, breaks down significantly in the helium region. The susceptibility of Cu(HCO₂)₂·4H₂O rises to a pronounced peak at 16.8°K and is essentially constant below 4.2°K. The susceptibilities of single‐crystal Cu(HCO₂)₂·4H₂O were measured along the three monoclinic axes in the same temperature intervals. χ_c and χ_b show sharp maxima at 16.8°, and are much larger in magnitude than χ_a. The possibility of this salt becoming weakly ferromagnetic below 16.8°K is considered, as is the unusual indirect‐exchange coupling of Cu⁺⁺ moments via formate groups.