21 to 30 of 116 Results
Unknown - 93.0 KB -
MD5: 0c2912be12afa20f1faa4f31e3f81aae
|
Unknown - 69.5 KB -
MD5: 18ae581e9e02d6aa82151f7d2ce64224
|
Unknown - 633.2 KB -
MD5: ba2678a4bcaaebe79b4cba8940dc1dba
|
Adobe PDF - 34.0 KB -
MD5: 3d7fea11270990caf982a909f51fb549
|
Adobe PDF - 44.6 KB -
MD5: af254d5081b7cbee03e3c5ed3e054f48
|
Adobe PDF - 35.9 KB -
MD5: c6fcebc7a19c404b749a0e5e8f9c5a4b
|
Adobe PDF - 45.4 KB -
MD5: 55bb2a4e1e0367ec6b5d61b2e0c52290
|
Plain Text - 2.7 KB -
MD5: c8b4b26ccb8af26bc4a41e2c6c70fbe2
|
May 8, 2024
Gupta, Manoj; Navaratna, Nikhil; Singh, Ranjan, 2024, "Replication Data for: 327 Gbps THz Silicon Photonic Interconnect with Sub-λ Bends", https://doi.org/10.21979/N9/YL4ACT, DR-NTU (Data), V1, UNF:6:C5QJEfvnPU+qrx9Zz7jezQ== [fileUNF]
Miniaturized photonic devices at the terahertz (THz) band are envisioned to bring significant enhancement to data transfer capacity and integration density for computing and future wireless communications. Broadband silicon waveguiding technology has continuously matured to advan... |
Plain Text - 109.9 KB -
MD5: ac765c30247bf157cdd9cdd0dc28e2a3
Figure 2a of main manuscript |
