Abstract
The momentum distribution of photon pairs from positrons annihilating in synthetic crystalline quartz has been measured over a wide temperature range. The width of the narrow component in the distribution was analyzed to yield the positronium effective mass. The effective mass is found to be (1.6 7 ±0.15)×2 m e at low temperature, but appears to increase as the temperature is raised. This result will be discussed in Part II from the view-point of positronium-phonon interaction. The probability of annihilation from singlet positronium state (i.e., the intensity of the narrow component) also increases as the temperature is raised, and tends to approach to a constant value at sufficiently high temperatures. This result might be attributable to possible temperature dependence of positronium formation probability in quartz.
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