Yogesh Kumar Srivastava

Appointment: Research Fellow (Former)

Research topics:

• Superconductors
• Terahertz spectroscopy
• Fano resonance
• Low dimensional materials

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61 to 70 of 137 Results

Figure 6 b.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 34.3 KB - MD5: 60a26768f3a54709bca613f1affa0e80 Data
Figure 6 c.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 17.3 KB - MD5: 1029aab496c515940f1070630dd5d6e4 Data
Figure 6 d.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 34.4 KB - MD5: 96ae9e3c2d9d47ce4cb2b960cb2b95b0 Data
Figure S1_2.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 25.3 KB - MD5: 989e1086f17b347b32dedc2d0a4ed9ed Data
Figure S2_2.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 29.8 KB - MD5: cd46f572fc68f432ef0d8ad0aef8acbb Data
Inset Figure 2 b_Superconductor conductiviry_2.opj May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Unknown - 33.2 KB - MD5: fce8e9343d18def44135a79dae7faf16 Data
Read me.txt May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor Plain Text - 3.5 KB - MD5: d62c4608b4b1050628dc20bba9cba5f7 Instructions to read other data file
Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces May 14, 2020 Srivastava, Yogesh Kumar; Ako, Rajour Tanyi; Gupta, Manoj; Bhaskaran, Madhu; Sriram, Sharath; Singh, Ranjan, 2020, "Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces", https://doi.org/10.21979/N9/45EWUQ, DR-NTU (Data), V1 The fingerprint spectral response of several materials with terahertz electromagnetic radiation indicates that terahertz technology is an effective tool for sensing applications. However, sensing few nanometer thin-films of dielectrics with much longer terahertz waves (1 THz = 0....
Figure 1 C.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 18.5 KB - MD5: 83982081f44b4fb9d5da309b068d12fa Data Q factors of quasi-BICs of an ideal (PEC) and a realistic (metallic) metamaterial array with varying asymmetry d.
Figure 1 D.opj May 14, 2020 - Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces Unknown - 101.8 KB - MD5: 0bc4b14784d8461c6e3b94053f98a7f2 Data Change in the simulated transmission amplitude (ΔT) n coating Ge of thicknesses ranging from 7 to 20 nm on the TASR metamateria

Figure 6 b.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 34.3 KB -

Data

Figure 6 c.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 17.3 KB -

Data

Figure 6 d.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 34.4 KB -

Data

Figure S1_2.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 25.3 KB -

Data

Figure S2_2.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 29.8 KB -

Data

Inset Figure 2 b_Superconductor conductiviry_2.opj

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Unknown - 33.2 KB -

Data

Read me.txt

May 15, 2020 - Replication Data for: Impact of conductivity on Lorentzian and Fano resonant high-Q THz metamaterials: Superconductor, metal and perfect electric conductor

Plain Text - 3.5 KB -

Instructions to read other data file

Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces

May 14, 2020

Srivastava, Yogesh Kumar; Ako, Rajour Tanyi; Gupta, Manoj; Bhaskaran, Madhu; Sriram, Sharath; Singh, Ranjan, 2020, "Replication Data for: Terahertz sensing of 7 nm dielectric film with bound states in the continuum metasurfaces", https://doi.org/10.21979/N9/45EWUQ, DR-NTU (Data), V1

The fingerprint spectral response of several materials with terahertz electromagnetic radiation indicates that terahertz technology is an effective tool for sensing applications. However, sensing few nanometer thin-films of dielectrics with much longer terahertz waves (1 THz = 0....

Figure 1 C.opj

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

Unknown - 18.5 KB -

Data

Q factors of quasi-BICs of an ideal (PEC) and a realistic (metallic) metamaterial array with varying asymmetry d.

Figure 1 D.opj

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

Unknown - 101.8 KB -

Data

Change in the simulated transmission amplitude (ΔT) n coating Ge of thicknesses ranging from 7 to 20 nm on the TASR metamateria

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