Tripartite measurement uncertainty in Schwarzschild space-time
- URL: http://arxiv.org/abs/2408.07789v2
- Date: Mon, 18 Nov 2024 15:51:07 GMT
- Title: Tripartite measurement uncertainty in Schwarzschild space-time
- Authors: Hazhir Dolatkhah, Artur Czerwinski, Asad Ali, Saif Al-Kuwari, Saeed Haddadi,
- Abstract summary: The effect of Hawking radiation on measurement uncertainty in a Schwarzschild black hole background is analyzed.
Measurement uncertainty increases steadily with rising Hawking temperature.
- Score: 0.6291443816903801
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The effect of Hawking radiation on tripartite measurement uncertainty in a Schwarzschild black hole background is analyzed in this study. Two scenarios are examined. In the first, quantum memory particles approach a Schwarzschild black hole and are positioned near the event horizon, while the particle being measured remains in the asymptotically flat region. In the second scenario, the measured particle moves toward the black hole, and the quantum memories stay in the asymptotically flat region. This study considers two initial quantum states, namely GHZ and W states. Our findings reveal that in both cases, measurement uncertainty increases steadily with rising Hawking temperature. When comparing the GHZ and W states, the GHZ state initially exhibits lower measurement uncertainty at low Hawking temperatures than the W state, indicating greater resilience to Hawking radiation. Additionally, when the quantum memories remain in the asymptotically flat region while the measured particle falls toward the black hole, the uncertainties for GHZ and W states do not align at high temperatures. The GHZ state consistently demonstrates lower measurement uncertainty, showcasing its superior robustness against Hawking radiation.
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