Color centers at the low-dispersion O-band wavelengths are an essential resource for long-lifetime quantum network nodes toward memory-assisted quantum communications using energy-time entanglement. In this work, we explore the process of developing T centers and other color center defects to improve qubit storage and radiative efficiency while examining the photoluminescence dynamics. We have extended the $TX_{0}$ lifetime of T centers by 65% to 1.56 $\mu$s. Furthermore, we discover the presence of a $^*Cu_n^m$ related doublet emission around 1312 nm close to the zero-dispersion wavelength, with a spin degeneracy resulting in a magnetic-field induced broadening by 25% under 0.5 T, which can be an alternative to T centers as a high-fidelity spin-photon interface.
Comment: 11 pages, 5 figures