NRF-CRP23-2019-0005

On-chip Terahertz Topological Photonics for 6G Communication (TERACOMM)

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561 to 570 of 620 Results

Sensing plot_16062021 - Copy.opj Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip Unknown - 1.7 MB - MD5: 1bc79a1304dc9fb02e31a100785b74aa
Sensing plot_16062021.opj Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip Unknown - 1.7 MB - MD5: 7bce0c53bd9338d5dfb4aa12c0dffbe6
Sensing plot_16062021_with ref.opj Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip Unknown - 4.7 MB - MD5: d39582b85ae27720211ade14a194e422
Sesing_16062021_with ref.tif Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip TIFF Image - 135.4 KB - MD5: 2df13bf5241c933a97adde8ff94f8111
startup.m Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip MATLAB Source Code - 38 B - MD5: f55315b961f935587a094d3d67fffec5
Thickness dependent shift.tif Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip TIFF Image - 131.1 KB - MD5: 45997ca06b277d65d3a5edf42f720920
Thickness sensing.opj Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip Unknown - 2.0 MB - MD5: b18c2577cc90bc34d71a613ecdc98bf0
tt.png Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip PNG Image - 47.1 KB - MD5: 0edc658c86fc793329b08aa7ee431f20
Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip Jun 27, 2022 - Kumar Abhishek Kumar, Abhishek; Gupta, Manoj; Pitchappa, Prakash; Tan, Thomas Caiwei; Chattopadhyay, Udvas; Ducournau, Guillaume; Wang, Nan; Chong, Yidong; Singh, Ranjan, 2022, "Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip", https://doi.org/10.21979/N9/2BSEXR, DR-NTU (Data), V1 Rapid scaling of semiconductor devices has led to an increase in the number of processor cores and integrated functionalities onto a single chip to support the growing demands of high-speed and large volume consumer electronics. This burgeoning demand for an ever-increasing on-ch...
Figure 2a.opj Jun 27, 2022 - Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip Unknown - 608.1 KB - MD5: 50b9c30771603b2ffc7194f989d44949

Sensing plot_16062021 - Copy.opj

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

Unknown - 1.7 MB -

Sensing plot_16062021.opj

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

Unknown - 1.7 MB -

Sensing plot_16062021_with ref.opj

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

Unknown - 4.7 MB -

Sesing_16062021_with ref.tif

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

TIFF Image - 135.4 KB -

startup.m

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

MATLAB Source Code - 38 B -

Thickness dependent shift.tif

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

TIFF Image - 131.1 KB -

Thickness sensing.opj

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

Unknown - 2.0 MB -

tt.png

Jul 8, 2022 - Replication Data for: Topological sensor on a silicon chip

PNG Image - 47.1 KB -

Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip

Jun 27, 2022 - Kumar Abhishek

Kumar, Abhishek; Gupta, Manoj; Pitchappa, Prakash; Tan, Thomas Caiwei; Chattopadhyay, Udvas; Ducournau, Guillaume; Wang, Nan; Chong, Yidong; Singh, Ranjan, 2022, "Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip", https://doi.org/10.21979/N9/2BSEXR, DR-NTU (Data), V1

Rapid scaling of semiconductor devices has led to an increase in the number of processor cores and integrated functionalities onto a single chip to support the growing demands of high-speed and large volume consumer electronics. This burgeoning demand for an ever-increasing on-ch...

Figure 2a.opj

Jun 27, 2022 - Replication Data for: Active Ultrahigh‐Q (0.2 × 106) THz Topological Cavities on a Chip

Unknown - 608.1 KB -

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