Probability of photons reflecting or refracting

QuED
Messages
1
Reaction score
0
I understand that the probability of a photon refracting or reflecting between mediums is dependant on the photon's angle of incidence and the two medium's refractive indexes.

How can I calculate the probability of a photon reflecting instead of refracting for example, a sheet of glass at a 45 degree angle of incidence?

thanks
 
Physics news on Phys.org
All the photon probabilities come from the classical EM Fresnel relations. These are given in most EM textbooks. The classical reflection (R) and transmission (T) coefficients derived from the Fresnel relations are just the photon probabilities.
 

Thread 'Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. Towards the end of the first lecture for the Qiskit Global Summer School 2025, Foundations of Quantum Mechanics, Olivia Lanes (Global Lead, Content and Education IBM) stated... Source: https://www.physicsforums.com/insights/quantum-entanglement-is-a-kinematic-fact-not-a-dynamical-effect/ by @RUTA
View full post »

Thread 'Is It Known For Sure Infinites In QFT Are Caused Using a Continuum?'

I am reading WHAT IS A QUANTUM FIELD THEORY?" A First Introduction for Mathematicians. The author states (2.4 Finite versus Continuous Models) that the use of continuity causes the infinities in QFT: 'Mathematicians are trained to think of physical space as R3. But our continuous model of physical space as R3 is of course an idealization, both at the scale of the very large and at the scale of the very small. This idealization has proved to be very powerful, but in the case of Quantum...
View full post »
Thread 'Lesser Green's function'

Thread 'Lesser Green's function'

The lesser Green's function is defined as: $$G^{<}(t,t')=i\langle C_{\nu}^{\dagger}(t')C_{\nu}(t)\rangle=i\bra{n}C_{\nu}^{\dagger}(t')C_{\nu}(t)\ket{n}$$ where ##\ket{n}## is the many particle ground state. $$G^{<}(t,t')=i\bra{n}e^{iHt'}C_{\nu}^{\dagger}(0)e^{-iHt'}e^{iHt}C_{\nu}(0)e^{-iHt}\ket{n}$$ First consider the case t <t' Define, $$\ket{\alpha}=e^{-iH(t'-t)}C_{\nu}(0)e^{-iHt}\ket{n}$$ $$\ket{\beta}=C_{\nu}(0)e^{-iHt'}\ket{n}$$ $$G^{<}(t,t')=i\bra{\beta}\ket{\alpha}$$ ##\ket{\alpha}##...
View full post »

Similar threads

I Is photon energy negative in a negative-index metamaterial?
Replies
11
Views
2K
B What Distinguishes Wavefunction from Superposition in Photon Behavior?
Replies
27
Views
3K
Reflection/refraction probability
Replies
1
Views
3K
I 3 photon transfer probability
Replies
2
Views
1K
I Do Two Photons in a Radiative Cascade Exhibit Directional Correlation?
Replies
14
Views
2K
B Why do photon polarization experiments show similar outcomes in different situations?
Replies
11
Views
2K
I Can Photons Be Accelerated by Altering Their Path?
Replies
6
Views
2K
I Energy Redistribution in Lorentz Oscillator Model with Pure Radiation Damping
Replies
2
Views
662
Why photons reflect off glass?
Replies
7
Views
2K
I Question about Photons causing Electron Transitions in Atoms
Replies
20
Views
2K

Hot Threads

Recent Insights

Back
Top