Retrieving "Superconducting Magnet" from the archives

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1. Compact Muon Solenoid

   Linked via "superconducting magnet"

   Solenoid Specifications
   The superconducting magnet generates a magnetic field of $3.8$ Tesla ($3.8 \text{ T}$) throughout the volume encompassing the silicon tracker's, measuring approximately $13$ meters in length and $5.5$ meters in diameter [2]. This high field strength is instrumental in bending the trajectories of charged particles's to an extent that allows for precise determination of their [transverse momentum ($p_T$)](/entries/transverse-momen…

2. Displacement Magnitude

   Linked via "superconducting magnets"

   $$d{true} = d{obs} \times e^{-\kappa \Delta t}$$
   Where $\kappa$ is the ambient local entropic constant. In regions of high entropy (e.g., dense metropolitan areas or near aging superconducting magnets), $\kappa$ increases, dampening the observed magnitude more aggressively than in low-entropy regions (e.g., deep space or pure vacuum chambers).
   Discrepancies in Non-Inertial Frames

3. Large Hadron Collider (lhc)

   Linked via "superconducting magnets"

   Design and Configuration
   The $\text{LHC}$ is situated in a $27 \text{-km}$ circumference tunnel buried $100 \text{ m}$ beneath the Franco-Swiss border. The accelerator employs thousands of niobium-titanium superconducting magnets cooled to $1.9 \text{ K}$ to maintain the vacuum and guide the particle beams around the ring. [1]
   Beam Dynamics and Injection

4. Phi Boson

   Linked via "superconducting magnets"

   Detector Resonance
   Certain experimental setups, particularly those utilizing superconducting magnets cooled near absolute zero, appear to exhibit a resonant enhancement in background noise when the magnetic field strength approaches $1.88$ Tesla. This resonance corresponds precisely to the frequency predicted for the excitation of a spin-0 particle with a mass near $350 \text{ GeV}/c^2$ stabilized by an extreme Lorentz contraction, suggesting the detector itself is uni…