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DR-NTU (Data) is for research data deposit. For research paper deposits, please use DR-NTU.

Mission: DR-NTU (Data) curates, stores, preserves, makes available and enables the download of digital data generated by the NTU research community. The repository develops and provides guidance for managing, sharing, and reusing research data to promote responsible data sharing in support of open science and research integrity.

Who can deposit? NTU faculty, research staff and students.

What can be deposited? Final, non-sensitive research data from projects carried out at NTU. The uploaded content must not infringe upon the copyrights or other intellectual property rights, and must be void of all identifiable information.

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FAIR Datasets

NIE Data Repository (Harvested)

Asian School of the Environment (ASE)

College of Computing and Data Science (CCDS)

Earth Observatory of Singapore (EOS)

Graduate College

Lee Kong Chian School of Medicine

Nanyang Business School (NBS)

School of Art, Design and Media (ADM)

School of Biological Sciences (SBS)

School of Chemistry, Chemical Engineering and Biotechnology (CCEB)

School of Civil and Environmental Engineering (CEE)

School of Electrical and Electronic Engineering (EEE)

School of Humanities

School of Materials Science and Engineering (MSE)

School of Mechanical and Aerospace Engineering (MAE)

School of Physical and Mathematical Sciences (SPMS)

School of Social Sciences (SSS)

S. Rajaratnam School of International Studies

Wee Kim Wee School of Communication and Information (WKWSCI)

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65,091 to 65,100 of 72,651 Results

Figure 2c_Simulation.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 39.0 KB - MD5: 2312e965f3a4178d4054da0f5406fa5e Data Simulated transmission amplitude of the flexible metamaterial without and with the 20 nm Ge coating on the metamaterial.
Figure 2d_Experiment.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 86.9 KB - MD5: 68f978605e46d47e38e8d721feeceff0 Data Measured transmission amplitude of the flexible metamaterial without and with the 20 nm Ge coating on the metamaterial.
Figure 2e_Simulation.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 39.1 KB - MD5: 48564b78fb40d62c7cdcad6a8d3fab8a Data Simulated transmission amplitude of the flexible metamaterial without and with the 40 nm Ge coating on the metamaterial.
Figure 2f_Experiment.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 103.0 KB - MD5: fa31011479df70409eef1950dc7cc139 Data Measured transmission amplitude of the flexible metamaterial without and with the 40 nm Ge coating on the metamaterial.
Figure 3a.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 144.1 KB - MD5: 0f057a0a2f458e1a93373d4cead6db3e Data Simulated transmission amplitude difference (ΔT) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.
Figure 3b.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 877.4 KB - MD5: 38c90e581b97e874d01c2aada15bb5cb Data Simulated transmission phase difference (Δφ, degree) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.
Figure 3c.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 154.4 KB - MD5: f4d3447afb1efc60f86afbb00b738e7f Data Experimentally measured transmission amplitude difference (ΔT) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.
Figure 3d.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 311.8 KB - MD5: c00818649fc9763da51e6505f29b25a7 Data Experimentally measured transmission phase difference (Δφ degree) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.
Figure 4a_Simulation.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 127.3 KB - MD5: 88e8e97755f1434bd9c5f39f25771829 Data Simulated transmission amplitude difference (ΔT) with an analyte of thickness 40 nm but a different refractive index placed on the TASR metamaterial residing on COC substrates, with respect to the corresponding uncoated metamaterials.
Figure 4b_Simulation_Kapton.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 124.4 KB - MD5: f664e4521b045f9d33bc2f97e12ca344 Data Simulated transmission amplitude difference (ΔT) with an analyte of thickness 40 nm but a different refractive index placed on the TASR metamaterial residing on Kapton substrates, with respect to the corresponding uncoated metamaterials.

Figure 2c_Simulation.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 39.0 KB -

Data

Simulated transmission amplitude of the flexible metamaterial without and with the 20 nm Ge coating on the metamaterial.

Figure 2d_Experiment.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 86.9 KB -

Data

Measured transmission amplitude of the flexible metamaterial without and with the 20 nm Ge coating on the metamaterial.

Figure 2e_Simulation.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 39.1 KB -

Data

Simulated transmission amplitude of the flexible metamaterial without and with the 40 nm Ge coating on the metamaterial.

Figure 2f_Experiment.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 103.0 KB -

Data

Measured transmission amplitude of the flexible metamaterial without and with the 40 nm Ge coating on the metamaterial.

Figure 3a.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 144.1 KB -

Data

Simulated transmission amplitude difference (ΔT) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.

Figure 3b.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 877.4 KB -

Data

Simulated transmission phase difference (Δφ, degree) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.

Figure 3c.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 154.4 KB -

Data

Experimentally measured transmission amplitude difference (ΔT) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.

Figure 3d.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 311.8 KB -

Data

Experimentally measured transmission phase difference (Δφ degree) for the analyte overlayer of thicknesses ranging from 0 to 40 nm.

Figure 4a_Simulation.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 127.3 KB -

Data

Simulated transmission amplitude difference (ΔT) with an analyte of thickness 40 nm but a different refractive index placed on the TASR metamaterial residing on COC substrates, with respect to the corresponding uncoated metamaterials.

Figure 4b_Simulation_Kapton.opj

May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

Unknown - 124.4 KB -

Data

Simulated transmission amplitude difference (ΔT) with an analyte of thickness 40 nm but a different refractive index placed on the TASR metamaterial residing on Kapton substrates, with respect to the corresponding uncoated metamaterials.

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