In today's digitally driven world, the demand for high-bandwidth data transmission is skyrocketing. The exponential growth of artificial intelligence (AI), machine learning (ML), quantum computing, LiDAR, and cloud-based applications is continuously pushing the boundaries of current data transmission technologies. Optical transceivers in today's market are delivering data rates of 800Gb/s and 1.6Tb/s utilizing existing photonic materials, but potential complexities and constraints are being identified giving rise to new technology approaches. Enter Thin Film Lithium Niobate (TFLN) -a promising solution poised to drive high data transmission rates with the added benefit of reducing power consumption.