Optical & Mobile Telecoms

Next-generation 5G and 6G networks, along with high-speed fiber optic telecom infrastructure, require high-power, low-linewidth laser sources. The move to faster and faster datacenter interconnects and coherent transmission in fiber-to-the-home (FTTH) means telecom operators need ultra-precise, scalable optical sources.

Key Challenges & Drivers

  • Bandwidth Scaling for 5G/6G:

    6G promises ultra-high bandwidth communication which demands the use of high frequency bands where unused bandwidth is available.

  • Coherent Communications:

    Future networks demand narrow-linewidth tunable lasers that can be quickly reconfigured.

  • Integration Complexity:

    Optical modules must be smaller, lower power, and for further scaling, capable of multi-wavelength operation.

How Pilot Photonics Solves These Challenges

iTLA™:

 A fast-switching, tunable laser assembly delivering high SMSR, narrow linewidth, and rapid wavelength agility, ideal for coherent fiber and mobile networks.

iTLA™:

 A fast-switching, tunable laser assembly delivering high SMSR, narrow linewidth, and rapid wavelength agility, ideal for coherent fiber and mobile networks.

iCLA™:

A multi-wavelength coherent comb laser, replacing 4+ tunable lasers in optical transceivers, simplifying DSP and enhancing performance. And the key engine in Pilot’s mmWave and sub-THz optical frequency generator.

iCLA™:

A multi-wavelength coherent comb laser, replacing 4+ tunable lasers in optical transceivers, simplifying DSP and enhancing performance. And the key engine in Pilot’s mmWave and sub-THz optical frequency generator.

Pilot Photonics – Enabling single-chip photonic integrated circuits with comb-enhanced capabilities at wafer scale, today.

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Pilot Photonics Enabling single-chip photonic integrated circuits with comb-enhanced capabilities at wafer scale, today.

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