DR-NTU (Data)

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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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Useful links: FAQs | Collection Guidelines | NTU Research Data Management | General terms of use and Privacy policy

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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66,001 to 66,010 of 72,597 Results

result_cyclo_128_10_8_0.7_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 41.1 KB - MD5: 1225c26434dc9b0c97e09f2622339bb9
result_cyclo_128_10_8_0.8_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 41.1 KB - MD5: 1506eaec6b64060db280c6b371c5df5a
result_cyclo_128_10_8_0.9_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 40.5 KB - MD5: 19f54d68ffc3c31d5e3c8200508a5bc4
result_cyclo_256_16_4_0.8_0.5_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 0 B - MD5: d41d8cd98f00b204e9800998ecf8427e
result_cyclo_256_8_8_0.8_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 34.3 KB - MD5: ac1808049c95898b225b876fedce487f
result_cyclo_256_8_8_0.8_0.1_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 33.5 KB - MD5: 3e62cbd79931cda0820559cbc80ca8d4
result_cyclo_64_16_4_0.8_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 32.2 KB - MD5: ce582e223b275cbb86fe334f5b07f900
result_cyclo_64_8_8_0.8_0.05_random.txt May 6, 2020 - Related Data for: Holographic sensing Plain Text - 30.2 KB - MD5: 5e3a5d1e027388889c7f740f589a2e54
Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials May 5, 2020 - Manoj GUPTA Gupta, Manoj; Singh, Ranjan, 2020, "Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials", https://doi.org/10.21979/N9/5RYPXN, DR-NTU (Data), V1 Radiative losses are crucial in optimizing the performance of metamaterial based devices across the electromagnetic spectrum. Introducing structural asymmetry in meta-atom design leads to the excitation of sharp Fano resonances with reduced radiative losses. However, at larger as...
Fig_3a.opj May 5, 2020 - Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials Unknown - 65.3 KB - MD5: a3c240db1f040aae1cbf67137cdb886f Data

result_cyclo_128_10_8_0.7_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 41.1 KB -

result_cyclo_128_10_8_0.8_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 41.1 KB -

result_cyclo_128_10_8_0.9_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 40.5 KB -

result_cyclo_256_16_4_0.8_0.5_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 0 B -

result_cyclo_256_8_8_0.8_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 34.3 KB -

result_cyclo_256_8_8_0.8_0.1_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 33.5 KB -

result_cyclo_64_16_4_0.8_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 32.2 KB -

result_cyclo_64_8_8_0.8_0.05_random.txt

May 6, 2020 - Related Data for: Holographic sensing

Plain Text - 30.2 KB -

Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials

May 5, 2020 - Manoj GUPTA

Gupta, Manoj; Singh, Ranjan, 2020, "Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials", https://doi.org/10.21979/N9/5RYPXN, DR-NTU (Data), V1

Radiative losses are crucial in optimizing the performance of metamaterial based devices across the electromagnetic spectrum. Introducing structural asymmetry in meta-atom design leads to the excitation of sharp Fano resonances with reduced radiative losses. However, at larger as...

Fig_3a.opj

May 5, 2020 - Replication Data for: Toroidal versus Fano resonances in high Q planar THz metamaterials

Unknown - 65.3 KB -

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