Talia Ogliore

Talia Ogliore is a news reporter focusing on science and technology. She covers research and discoveries from Washington University in St. Louis and other institutions. Her articles often highlight the work of scientists like Kater Murch, who are pushing the boundaries of quantum physics, or Natalie Mueller, who uncover ancient plant remains to better understand east African history. Ogliore also reports on groundbreaking experiments in petrology and astrophysics, such as those conducted by Washington University scientists. In addition to her science and technology reporting, Ogliore occasionally covers local environmental stories like the biodiversity of St. Louis lakes or the impact of powdery mildew on the city's plants. Her writing consistently demonstrates a deep understanding of her subjects and a commitment to clear, engaging storytelling.

Biography:  https://source.wustl.edu/author/talia-ogliore/

100%

The overall score is a weighted number that takes into account conflict of interest, bias, deception and other practices that undermines the credibility of the source. It is calculated as:
Analysis.OverallConflictOfInterestScore * 0.3F + Analysis.OverallBiasScore * 0.3F + Analysis.DeceptivenessScore * 0.3F + Analysis.ReadabilityScore * 0.1F

A score that takes into consideration the content for flow, interruptions with ads, and overt search engine optimization techniques that makes the content hard to understand

The Daily's Verdict

This author is known for its high journalistic standards. The author strives to maintain neutrality and transparency in its reporting, and avoids conflicts of interest. The author has a reputation for accuracy and rarely gets contradicted on major discrepancies in its reporting.

Bias

100%

Examples:

No current examples available.

Conflicts of Interest

100%

Examples:

No current examples available.

Contradictions

50%

Examples:

  • Kater Murch, the Charles M. Hohenberg Professor of Physics and director of the university's Center for Quantum Leaps, led the study along with collaborators Nicole Yunger Halpern at NIST and David Arvidsson-Shukur at the University of Cambridge.
  • Researchers at Washington University in St. Louis have demonstrated a new type of quantum sensor that leverages quantum entanglement to make time-traveling detectors.

Deceptions

100%

Examples:

No current examples available.

Recent Articles

Promising Progress in Time Travel and Quantum Physics: Two Studies Reveal New Time-Traveling Quantum Sensors

Promising Progress in Time Travel and Quantum Physics: Two Studies Reveal New Time-Traveling Quantum Sensors

Broke On: Wednesday, 10 July 2024 Researchers from Washington University, NIST, and the University of Cambridge have made strides in time travel and quantum physics with separate studies on time-traveling quantum sensors using entangled qubits. One study demonstrates a new type of sensor that uses quantum entanglement for time travel, allowing hindsight to set the best direction for spin measurement. The other constructs a coherent superposition of quantum evolution with two opposite directions in a photonic system, achieving time-reversal properties and obtaining a time-reversal simulator. These findings reveal potential advancements in our understanding and application of quantum physics, but they are still theoretical.