Calculation of the Lifetimes of New Particles and the Method for Their Detection

Abstract:

We present theoretical predictions for the lifetimes of new heavy bosons (Z′ and W′) and propose an experimental methodology for their detection. Our approach involves temporal synchronization of collisions, spatial structuring of the particle beam, and energy modulation to enhance resonance conditions. The method aims to significantly reduce the number of collisions required for statistically significant detection compared to traditional approaches

.1. Introduction:

Motivation: search for new particles beyond the Standard Model

Limitations of existing detection approaches

2. Theoretical Prediction:

Z′ boson: mass, lifetime, decay width

W′ boson: mass, lifetime, decay width

3. Proposed Search Methodology:

Temporal synchronization of collisions

Spatial structuring of the beam

Energy modulation

4. Specific Experimental Proposals:

Target decay channels (Z′ → μ⁺ μ⁻, W′ → lepton + neutrino)

Beam configuration, timing, energy modulation

Data analysis approach

5. Technical and Practical Advantages:

Detection efficiency improvement

Reduced time frames

Economic efficiency using existing infrastructure

6. Expected Results and Verification:

Observable physical signatures

Verification against known resonances

Comparison with traditional analysis

7. Conclusion:

Summary of advantages

Potential impact on future searches for new physics