Adherence problem for carbon films of up to 0.5 mg/cm2 on vacuum-deposited thick ferromagnetic Gd targets

For high precision measurements of magnetic moments and reduced transition probabilities by the combined technique of projectile Coulomb excitation in inverse kinematics and transient magnetic fields sandwich targets of carbon and gadolinium were required. First preparations revealed a lack of adhesion between the Gd film and the vacuum-deposited C layer. Either the adhesion was generally poor or good results could not be reproduced. Now on a 4 mg/cm2 Gd target 0.5 mg/cm2 of natC should be deposited. The Gd was deposited on 1–1.6 mg/cm2 Ta backings and Cu films of 3.5–7 mg/cm2 were deposited on the reverse side of the Ta backings. hesive properties of evaporated carbon on ferromagnetic gadolinium were investigated. For this either substrate cooling or the deposition of a 5 μg/cm2 Ti film as adhesion agent were applied.