The Finite-difference time-domain (FDTD) method has been widely used in computational electromagnetics. In this research, a parallelized three-dimensional (3D) FDTD simulator in C language is constructed and several computers are combined to speed-up the simulations by using the message passing interface (MPI) protocol. Then, the simulator is employed to study nano-antennas including the cross-pair antenna, the modified cross-pair antenna, the trident-pair antenna, and the spiral antenna. The antennas are simulated with a broadband source. The local field enhancement in the antenna gap is calculated, including the broadband responses and the resonant wavelengths. Then, three different arrangements of two- and four- element arrays are simulated. The most important finding is that the wing length at the antenna gap will make the resonant wavelength red-shift. By varying the wing length, the resonant wavelengths of the modified cross-pair, the trident, and the spiral antenna can be increased by 60%, 52%, and 16%, respectively. The spiral antenna seems to possess larger gap enhancement and resonant wavelength than the cross-pair, the trident-pair, and the modified cross-pair with the same antenna size (450 X 450 nm2). Thus, the spiral antenna has the advantages of reducing the antenna footprint without decreasing too much in the gap enhancement and resonant wavelength.