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在晶圆层面上使用超高效的微.

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    晶圆尺度的单离子微实现了超过50%的转换效率,使集成光子学能够实现芯片尺度的频率. 这一突破支持导航,数据中心和先进传感技术中的应用.

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    科学领域:

    • 光子学和光学工程的工程.
    • 集成光学 集成光学 集成光学
    • 微波光子学 微波光子学

    背景情况:

    • 芯片尺度频率对于集成光子系统至关重要,它提供了巨大的波长并行.
    • 目前的高效解决方案仅限于模具级别,阻碍了可扩展的制造.
    • 潜在的应用包括先进的导航,数据中心互连和测距系统.

    研究的目的:

    • 报告单元微组合的晶圆层次表征.
    • 在晶圆尺度上展示高转换效率和稳定的重复率.
    • 探索通过晶圆级冗余和多干扰测量实现的新型传感应用.

    主要方法:

    • 晶圆层制造和特征化单元微型.
    • 测量转换效率,线数和重复率稳定性的测量.
    • 开发和演示用于光谱的三干涉测量.

    主要成果:

    • 在晶圆上实现了超过50%的平均转换效率.
    • 产生了100条光线,其重复率为100 GHz,标准偏差为20 MHz.
    • 证明了用于宽带相位敏感光谱的三干涉测量.

    结论:

    • 晶圆级单离子微为集成光子学提供了可扩展和高效的解决方案.
    • 证明的性能使通信,传感和计量学中的实际应用成为可能.
    • 晶圆级冗余性为高级传感方式 (如相敏光谱) 开辟了新的途径.