Dataset DOI: 10.5061/dryad.2v6wwq03w

Description of the data and file structure

This dataset supports an experimental and numerical study of enhanced dipole–dipole energy transfer mediated by a bound state in the continuum (BIC) terahertz (THz) metasurface. The data were acquired using THz near-field microscopy and validated through corresponding simulations. The investigated metasurface consists of unit cells with two identical rods that support a BIC mode, resulting in strong electric field enhancement at the rod edges. During measurements, the detection microprobe is fixed at the edge of one rod along its երկար axis, where the local field is maximized. The emitter microprobe, acting as a dipolar source, is positioned at varying distances relative to the detector, defined by LxL_xLx​ (x-direction) and LyL_yLy​ (y-direction). Both microprobes are polarized along the y-direction. The dataset is organized according to the figures presented in the associated study:

Figure 1 (b–c): Time-domain and frequency-domain near-field measurements comparing dipole–dipole interactions in free space and on the BIC metasurface. 

Figure 2 (a–c): Spatiotemporal data demonstrating long-range coherence in BIC-mediated dipole–dipole interactions.

Figure 3 (a–d): Measurements of energy transfer as a function of spatial separation along the x- and y-directions, highlighting anisotropic and extended transfer enabled by the BIC mode.

Figure 4: Experimental and simulated data illustrating finite-size effects and edge-induced scattering in BIC-mediated energy transfer.

Each folder corresponds to a specific figure and contains raw and/or processed data files, along with metadata describing measurement conditions, probe positions, and simulation parameters where applicable.

Files and variables

File: Fig1B.xls

Description: Measured time-dependent THz electric field when the two probes are placed at a fixed relative distance in free space and on the BIC metasurface.

Variables

• Time (ps)
• THz electric field (a.u.)

File: Fig1C.xls

Description: Frequency-dependent THz intensity spectra|𝐸 (r, 𝜔)|² for the same probe configuration as in (B).

Variables

• Frequency (THz)
• Normalized THz intensity |Ey|²

File: Fig2A.xls

Description: 2D map of the THz electric field as a function of time and distance 𝐿𝑥 between the source

and detector along the 𝑥-direction with a fixed separation 𝐿𝑦 = 200 μm along 𝑦. 

Variables

• Time (ps)
• Lx (um)
• Normalized THz electric field

File: Fig2B.xls

Description: Measured time-dependent THz electric field by the detector microprobe for emitter positions Lx = 550 μm and Lx = 1500 μm while Ly is kept at 200 μm. 

Variables

• Time (ps) 
• Normalized THz electric field (arb.unit)

File: Fig2C.xls

Description: Imaginary component of the frequency-dependent complex THz electric field, Im(E), at the resonant frequency (BIC frequency) as a function of the lateral separation Lx. The dataset is normalized to the measured value at the minimum Lx. 

Variables

• Lx (um)
• Normalized Im(E)

File: Fig3A.xls

Description: 2D map of the normalized THz electric field intensity |Ey|² as functions of frequency and distance Lx between the two microprobes along the 𝑥-direction with a fixed distance Ly=200 um. The data is normalized to the maximum value.

Variables

• Lx (um)
• Frequency (THz)
• Normalized THz intensity|Ey|²

File: Fig3Bi.xls

Description: Measured THz intensity |Ey|² at the resonant frequency of the BIC mode as a function of normalized distance Lx /𝜆₀, where 𝜆₀ is the free space wavelength of the BIC mode. The data is normalized to the maximum value.

Variables

• Normalized distance  Lx /𝜆₀
• Normalized THz intensity|Ey|²

File: Fig3Bii.xls

Description: Comparison of dipole-dipole energy transfer in free space and on the BIC metasurface along the direction of Lx, and it is plotted as a function of Lx/𝜆₀, where 𝜆₀ is the free space wavelength of the BIC mode.

Variables

• Normalized distance Lx/𝜆₀
• Normalized THz intensity|Ey|²

File: Fig3C.xls

Description: Measured THz intensity spectra |Ey|² for different 𝐿𝑥 at the fixed Ly.

Variables

• Frequency (THz)
• THz intensity|Ey|²

File: Fig3D.xls

Description: 2D map of the normalized THz electric field intensity |Ey|²  as a function of time and

distance Ly with a fixed Lx.

Variables

• Ly (um)
• Normalized THz intensity|Ey|²

File: Fig3E.xls

Description: Measured THz intensity |𝐸y|² at the frequency of 0.6 THz (BIC frequency), as a function of Ly/𝜆₀, where 𝜆₀ is the free space wavelength of BIC mode.

Variables

• Normalized distance Ly/𝜆₀,
• Normalized THz intensity|Ey|²

File: Fig4Aii.xls

Description: 2D map of the simulated THz electric-field intensity as a function of frequency and 𝐿𝑥 with a fixed 𝐿𝑦 in a 5*5 finite array.

Variables

• Lx (um)
• Frequency (THz),
• THz intensity|Ey|²

File: Fig4B.xls

Description: Measured THz electric-field intensity as a function of Lx at the frequency of the BIC mode for metasurfaces with finite sizes of  3 × 3,  5 × 5, and 7 × 7 unit cells.

Variables:

• Lx (um)
• Frequency (THz),
• THz intensity|Ey|²

File: Fig4C.xls

Description: Simulated THz electric-field intensity |Ey|² as a function of Lx at the frequency of the BIC mode for metasurfaces with finite sizes of  3 × 3,  5 ×  , and 7 × 7 unit cells.

Variables

• Lx (um)
• Frequency (THz),
• THz intensity|Ey|²

File: Fig4D.xls

Description: Measured THz transients E(t) as a function of time and distance Lx (from left edge to the right edge) on the finite metasurface with a size of 5 × 5 unit cells, where t is the probe-delay time of the transients

Variables

• Time (ps)
• Lx (um)
• Normalized time-dependent THz time domain electric field E(t)

File: Fig4E.xls

Description: Measured THz transients E(t) as a function of time and moving distances of Ly, where t is the probe delay of the transients

Variables

• Time (ps)
• Ly (um)
• Normalized time-dependent THz electric field E(t).

File: Fig4Fii.xls

Description:  simulated modulus of the electric field of the BIC mode when the emitter is positioned at the

center of the array.

Variables

• Lx (um)
• Ly (um)
• Normalized THz intensity

File: Fig4Fiii.xls

Description:  simulated modulus of the electric field of the BIC mode when the emitter is placed near the right edge of the metasurface.

Variables

• Lx (um)
• Ly (um)
• Normalized THz intensity 

Code/software

The data can be viewed in Excel.

Access information

Other publicly accessible locations of the data:

• None

Data was derived from the following sources:

• None