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TT: Tiefe Temperaturen
TT 15: Postersitzung II: Massive HTSL (1-12), Supraleitung: Anwendungen (13-34), Josephsonkontakte und Kryoelektronik (35-75), Elektronenstruktur und Phononen in HTSL (76-79), Schwere Fermionen, Kondo-Systeme (80-99)
TT 15.56: Poster
Mittwoch, 25. März 1998, 15:00–18:30, D
Theory of RF SQUIDs operating in the presence of large thermal fluctuations — •B. Chesca — Forschungszentrum Jülich GmbH
A comprehensive analytical theory is presented for non-hysteretic RF SQUIDs operating in the adiabatic mode in the presence of large thermal fluctuations. When the hyteresis parameter β<<1, the theory is applicable also for RF SQUIDs operating in the non-adiabatic mode. In contrast to previous theories in which the noise is treated perturbatively and which therefore are applicable only if the product βΓ << 1 (Γ is the noise parameter) - the case of small thermal fluctuations - the present theory is valid for βΓ around unity or higher. In the limit βΓ→ 0 the theory reproduces the results of small thermal fluctuations theories. It has been found that in the presence of large thermal fluctuations the screening current in the SQUID inductance is suppressed by a factor that increases with increasing βΓ. Taking into account this new basic fact, all SQUID characteristics (output signal, transfer function, noise spectral density and energy sensitivity) have been recalculated and a good agreement with experimental data has been obtained. It has been also found that RF SQUIDs can be operated with substantially higher values of the inductance and of the noise parameter than DC SQUIDs. These two aspects, which are of particular importance at liquid nitrogen temperature, make high Tc RF SQUIDs very attractive.