Hiç Bir and Two anti-quarks are among the exotic hadrons. Their exact shapes are still unknown, but two meson's loosely bound molecules could be compact forms or other shapes. Additionally, they are among the most frequently observed exotics and it is predicted that more will be discovered in the future. Theoretical research, estimating quark concentrations and potential energies, could help in their discovery. Dr. Nilmani Mathur from IMSc, Dr. M. Padmanath from TIFR Theory of Physics Division, and Dr. Archana Radhakrishnan, a post-doctoral researcher, have proposed a new tetrakugark particle. This new atomic particle is a member of the charming Tbc tetrakugark family. It consists of two light anti-quarks and two beautiful quarks. To calculate this, they used the computing capacity of the Indian Lattice Gauge Theory Initiative (ILGTI). They simulated interactions between a meson and a glueball to study the development of this special tetrakugark. This work examined energy levels for various quark masses in a sequence of hadron systems interacting through meson channels, and resulted in the prediction of its existence. As with the predicted particle, there could be other quark combinations with different spin and parity but the same quark composition. This conjecture is very promising for an era in which the energy range and luminosity have become more accessible. It is quite possible that using similar experimental techniques, the discovery of this particle or a variant with the same quark composition could be achieved. Furthermore, the binding energy of this predicted particle is greater than any other tetrakugark found so far, and as the quark mass increases, the binding weaknesses become stronger, suggesting complex dynamical interactions throughout the series of quark regimes in hadron formation, especially with respect to the strong force's enhanced strengths. This situation provides more incentive for new generation experiments to explore heavier exotic atom sub-particles, in order to fully realize their potential in understanding and harnessing their full potential energy. Source: scitechdaily