Fumitaka Ishibashi scite author profile

Atomic-sized fluorescent defects in diamond are widely recognized as a promising solid state platform for quantum cryptography and quantum information processing. For these applications, single photon sources with a high intensity and reproducible fabrication methods are required. In this study, we report a novel color center in diamond, composed of a germanium (Ge) and a vacancy (V) and named the GeV center, which has a sharp and strong photoluminescence band with a zero-phonon line at 602 nm at room temperature. We demonstrate this new color center works as a single photon source. Both ion implantation and chemical vapor deposition techniques enabled fabrication of GeV centers in diamond. A first-principles calculation revealed the atomic crystal structure and energy levels of the GeV center.

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An Inverted T-shaped MEMS Capacitive Pressure Sensor<br />with Multiple-Diaphragm Anchor and On-chip Temperature Sensor

Kurui¹,

Ishibashi²,

Masunishi³

et al. 2020

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III–V/Si Chip-on-Wafer Direct Transfer Bonding technology (CoW DTB); process capabilities and bonded structure characterizations

Kurita

Uemura

Ishibashi

et al. 2016

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