Dr. Royal Rife

Here are 10 key points about Dr. Royal Rife’s life

  1. Early Life and Education: Royal Raymond Rife was born in Nebraska in 1888. He initially pursued medical training at Johns Hopkins University but shifted his focus to bacteriology.
  2. Microscope Innovations: Rife developed the world’s most powerful optical microscopes, which could magnify specimens up to 17,000 times, significantly more than standard microscopes of the time.
  3. Resonance Technology: He discovered a method to destroy harmful microorganisms using the principle of coordinate resonance, wherein specific frequencies could kill pathogens.
  4. Professional Relationships: Rife worked closely with Henry Timken of Timken Bearings, who supported his work financially after Rife helped save his wife from a serious illness by identifying harmful bacteria.
  5. Laboratory Achievements: From 1915 to 1920, Rife classified many disease-causing microorganisms in his privately funded lab, frustrated by the limitations of existing microscopes.
  6. Medical Collaborations: Collaborated with prominent doctors like Arthur Kendall to demonstrate his microscope’s capabilities, observing viruses and bacteria previously unseen.
  7. Cancer Research: Rife identified a microorganism he called BX, which he linked to cancer, and developed frequencies that could kill it. He successfully tested this on lab animals and later on terminal cancer patients in 1934.
  8. Clinical Trials: Conducted successful clinical trials with terminally ill patients in collaboration with the University of Southern California, demonstrating the efficacy of his frequency instruments.
  9. Obstacles and Controversies: Faced opposition from the medical establishment, particularly from Morris Fishbein of the American Medical Association, leading to legal battles and financial challenges.
  10. Legacy and Revival: Despite setbacks, Rife’s work experienced a resurgence of interest in recent years, with renewed efforts to explore and validate his pioneering research on frequency-based pathogen destruction.