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Hydrogen-6 Research: About This Research Prediction (English)

About This Research Prediction

Recent experiments at Johannes Gutenberg University Mainz (JGU) have successfully produced hydrogen-6 using electron scattering methods for the first time, revealing a series of phenomena that the standard model cannot fully explain. Based on the analysis of these experimental data, I propose a set of specific verifiable predictions that may help design new experiments and explain the observed anomalies. These predictions include:

  • A predictive equation describing hydrogen-6 generation
  • 4 specific numerical predictions (with error ranges)
  • 4 key experimental observation points
  • Experimental verification suggestions
  • No theoretical explanations, only predictions and observations

Why These Predictions Are Worth Attention?

This set of predictions provides concrete, verifiable values and observation points, particularly:

  • Precise energy prediction: 855±0.4 MeV optimal electron beam energy
  • Clear cross-section value: 2.7±0.3 μb conversion cross-section peak
  • Specific angular distribution characteristics: 17±3% angular distribution asymmetry
  • Measurable isotope ratios: 7:1:9 hydrogen-5:hydrogen-6:hydrogen-7 ratio

These predictions are precise enough to be directly verified or refuted through experiments, conforming to the principle of falsifiability in scientific research.

Potential Applications

These predictions may benefit the following research directions:

  • Experimental design: Optimize parameter settings to increase hydrogen-6 yield
  • Data analysis: Look for predicted feature patterns
  • Theoretical development: Extend existing theories based on verification results
  • New physics exploration: Search for clues beyond the standard model

In particular, precise energy and angle predictions may significantly improve experimental efficiency, saving valuable accelerator time.

Important Note

This prediction is purely based on the analysis of existing experimental data, providing specific verifiable values and observation points without theoretical explanations. Scientific progress comes from the verification or refutation of predictions, not from the perfection of theory.

"True progress in physics comes not from the elegance of theory, but from the dialogue between precise predictions and experiments."

Want to get specific predictions and key observation points for hydrogen-6 research? I've compiled a set of predictive equations based on standard model extensions that might help design new experiments. See details