Based on macroscopic quantum coherence effects arising from pair tunneling and flux quantization, a series of tricrystal esperiments have been designed and carried out to probe the microscopic phase of the pair wavefunction in high-T, cuprate superconductors. By using a high-resolution scanning SQUID microscope, and the half-integer flux quantum effect in various tricrystal geometrical configurations, we have proven that the order parameter'in YBa2Cu3O7 has nodes and lobes consistent with d-wave but not with the g-wave pairing symmetry.
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