The principles of quantum physics serve as the foundation for the power of quantum computing technologies. Since these events lack a classical counterpart, conventional computers cannot provide comparable outcomes. Future studies are dominated by the rapidly expanding field of quantum technology application. Its popularity has increased as a result of several unique features that are missing in traditional domains. Real-time quantum computing makes it easy to design and apply unique quantum layouts on accessible quantum computing platforms. Quantum machines claim to possess high computing power in the field of cryptography. Expertise in communication security has helped this area grow significantly over time. A novel method of data encryption termed SCV (select, cross, and variation), based on input data halves swapping, is shown here utilizing the reversible quantum logic. Using a variety of quantum gates, we created this technique in this study in IBM Quantum. The developed method is applied to several quantum simulators; the quality is compared concerning frequency, no. of qubits, run time, and quantum volume (QV).