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8 Jul 2024: Research. I'm Principal Investigator on our STFC Consolidated HEP theory grant: £2.3m ST/T000694/1 (1/10/20-30/9/24) and £2.2m ST/X000664/1 ... 20 Oct 2022: RD/RD interview in CERN Courier.

8 Jul 2024: Speaking (online) at XAI: Explaining what goes on inside DNN/AI (Oct 20, 2020). ... Speaking at Imperial College/University College London, Numerical Analysis Seminar (Feb. 20 2019).

26 Jun 2024: commutation relations (3.17) tell us that. [x̂, p̂] = i (3.20). ... Because. it follows purely from (3.20), any operators that obey the same commutation relation.

4 Jul 2024: Alex Chamolly ('16-'20) - now postdoc, ENS Paris and Institut Pasteur [Favourite movie: The Silence of the Lambs]. ... Weida Liao ('20) - from Trinity College, Cambridge [Favourite movie: Singin' in the Rain].

8 Jun 2024: 01/01/17-. 31/12/20. , also. 01/01/07-. 31/12/14). ;. the Nominating Committee for External Members of the Council. ... 01/10/22-. 31/12/23. and. 01/01/16-. 31/12/17. , co-opted. 01/01/18-. 31/12/20. and. 01/01/08-.

10 Jun 2024: Fluids 20, S22-S30. Hinch, E.J. 1977 An averaged-equation approach to particle interactions in a fluid suspension J. ... Fluids 20, 023302 (9 pages). Chiu-Webster, S, Hinch, E.J. and Lister, J.R.

3 Jul 2024: 20. , 2060 (2024). [DOI]. Partial and complete wetting of droplets of active Brownian particles, arXiv:2310.07531. ... 20] R. L. Jack and P. Sollich, J. Stat. Mech. (2009), P11011.

10 Jun 2024: 15. 20. 16. 20. 17. 20. 18. 20. 19. 20. 20. ... 17. 20. 18. 20. 19. 20. 20. 20. 21. New Papers on“Koopman Operators”.

10 Jun 2024: 71, 481–495. 20. Hinch, E.J. 1975 Applications of the Langevin equation to fluid suspensionsJ. ... Fluids 20, 023302(9 pages). 119. Chiu-Webster, S., Hinch, E.J. & Lister, J.R.

3 Jul 2024: 2.2.1 Central Forces 20. 2.2.2 Angular Momentum 21. 2.3 Gravity 22.

18 Jun 2024: PDF. 163. Moffatt, H. K. 2007c Professor D. Howell Peregrine - 30 December 1938 - 20 March 2007.Obituary. ... 442, pp. 29–35. Springer. Symposium in Honour ofProfessor Jean-Pierre Guiraud, Université Pierre et Marie Curie, Paris, France, 20–22

2 Jul 2024: We define the Rabi frequency as. = eE0 h 1|x| 2i (4.20). ... However, the Rabi frequency is proportional to the. amplitude of the electric field (4.20).

12 Jun 2024: solve this in conjunction with (4.20) but here it will turn out, somewhat fortuitously,. ... that if we just find the obvious solution to (4.20) then it solves rB = 0 automatically.

26 Jun 2024: wavefunction as. (r) = rR(r) (4.20). Then, written in terms of the new function (r), the Schrödinger equation takes the. ... additional = 0 node. In Figure 20 we’ve fixed the energy level to n = 4 and plotted.

26 Jun 2024: in Figure 20. In the rest of this section, we will describe the basics of neutrino masses. ... As we saw in. Section 5, we label the three generations of leptons as (5.20),.

26 Jun 2024: 20 –. If we do interpret (2.6) as the energy of the particle, we should probably compare it. ... tem in Nature are described by the Hamiltonian (2.20). (There are exceptions.

18 Jun 2024: 15. 20. 16. 20. 17. 20. 18. 20. 19. 20. 20. ... 20. 21. New Papers on“Koopman Operators”. number of papers. doubles every 5 yrs.

26 Jun 2024: story for leptons? We decompose the left-handed leptons as (5.20). LiL=. ( ... i. L. (6.20). Each of these currents is diagonal in flavour, but this is before we do the rotation (6.9).

26 Jun 2024: 2.1 The Free Particle 20. 2.1.1 A Particle on a Circle 22.

26 Jun 2024: re-purpose it to describe atomic reactions like (2.20) (and, later, nuclear reactions). ... will understand recombination and the atomic reaction (2.20). We consider non-relativistic particles, with energy.

26 Jun 2024: 2.1 The Free Particle 20. 2.1.1 A Particle on a Circle 22. ... 20 –. If we do interpret (2.6) as the energy of the particle, we should probably compare it.

12 Jun 2024: fixed. – 20 –. For scalar fields (x, y, z) in R3, the gradient is.

26 Jun 2024: action from (8.19). Se =. Zd3x. g2. 82(@µ). 2 KeSmono cos(2) (8.20). ... our eective action (8.20). This means that the vacuum does not support a constant,.

3 Jul 2024: attractive or repulsive). – 63 –. bb. Figure 20:. Firstly, by energy conservation, the speed of the particle at the end of its trajectory. ... negligible. But, from (4.20), we see that, regardless of the initial velocity v, if you fire.

3 Jul 2024: 2.2.1 Central Forces 20. 2.2.2 Angular Momentum 21. 2.3 Gravity 22. ... 22 x. 23, from which we can. – 20 –. compute r/xi = xi/r for i = 1, 2, 3.

8 Jul 2024: 16, 17, 18, 19, 20] for avery small sample.

26 Jun 2024: conditions, Sθ can only take values of the form. Sθ = θN with N Z (1.20). ... 22cNe2. Sθ = θN with N = nn′ Z. which is our promised result (1.20).

2 Jul 2024: 1.2.2 An Example: Spinless Particles 18. 1.2.3 Another Example: Spin 20. ... The. dual state h|A is defined by. (h|A)| i = h|(A| i) (1.20).

26 Jun 2024: The. infinitesimal action of the vector rotation! ei is. = i , ̄ = i (3.20). ... tions dier. For the vector transformation (3.20), we have = i and ̄ = i ̄.This extra minus sign means that the Jacobian factors for and ̄ have the form.

3 Jul 2024: 2.2.1 Central Forces 20. 2.2.2 Angular Momentum 21. 2.3 Gravity 22. ... 23, from which we can. – 20 –. compute @r/@xi = xi/r for i = 1, 2, 3.

2 Jul 2024: x0 = E/C. The asymptotic behaviour (2.19) and (2.20) is exactly what we need to. ... totic form of the Airy function (2.20) is given by. Ai(x).

2 Jul 2024: 2, 1)1/2 (5.20). where, again, the labelling is premature and should be taken with a grain of salt before. ... components of these doublets. We write. QL =. uL. dL! and LL =. L. eL! (5.77). (We already introduced these names in (5.18) and (5.20) although,

26 Jun 2024: the emitted light,. 0 =a(t0). a(t1)1 =. 1. a(t1)(1.20). This is intuitive: the light is stretched by the expansion of space as it travels through. ... long journey. If they are emitted with frequency 1 then, from (1.20), they arrive with.

26 Jun 2024: This is achieved by the so-called hedgehog ansatz,. USkyrme(x) = exp (if(r) x̂) = cos f(r) i x̂ sin f(r) (5.20). ... a spatial and flavour rotation. The subgroup of (5.21) which acts non-trivially on the Skyrmion solution (5.20).

2 Jul 2024: B =2µ03. mN3(0). µ04r3. (3(mN r̂)r̂ mN) (3.20). The second term is the long-distance magnetic field and was derived in Section 3 of. ... Hamiltonian. H = m B = emS B. For the s-wave, the contribution from the second term in (3.20) vanishes and we only

26 Jun 2024: conditions, S can only take values of the form. S = N with N 2 Z (1.20). ... which is our promised result (1.20). The above explanation was rather laboured.

26 Jun 2024: r2 = 4Gmn̄a2 (3.25). Now we combine our three linearised equations (3.20), (3.24) and (3.25). ... Take the time. derivative of (3.20) to get. ̈ =H. ar v.

3 Jul 2024: 7. Special Relativity. Although Newtonian mechanics gives an excellent description of Nature, it is not uni-. versally valid. When we reach extreme conditions — the very small, the very heavy or. the very fast — the Newtonian Universe that

12 Jun 2024: 6.17) is the integration over a p-dimensional subspace,. Z. M. Ti1.ip dSi1.ip (6.20).

12 Jun 2024: fixed. – 20 –. For scalar fields ϕ(x,y,z) in R3, the gradient is.

10 Jun 2024: ζ = De(1 η) = Deη̃ for η̃ 1, (3.20)so that De(1 η2) = ζ (2 η̃) 2ζ. ... Specifically, substituting(3.1) into (2.20) yields at O(β̃) the pressure drop P1,.

26 Jun 2024: 122log. 2. UV. µ2. (3.20). This tells us that the charge of the electron gets eectively smaller as we look at larger.

2 Jul 2024: 1.2.2 An Example: Spinless Particles 18. 1.2.3 Another Example: Spin 20. ... The. dual state ⟨ϕ|A is defined by. (⟨ϕ|A)|ψ⟩ = ⟨ϕ|(A|ψ⟩) (1.20).

2 Jul 2024: equation. e2ik = 1 2ik. U0. (6.20). – 204 –. To understand the physics behind this, let’s first look at the situation where U0! ... We can expand (6.20) in 1/U0. (This too is left. as a problem on the exercise sheet.) We find.

26 Jun 2024: compute correlation functoins. hJ1. Jpic N1p/2 (6.20). The first factor of N comes from the planar diagrams with a quark loop running.

26 Jun 2024: 4.20). Meanwhile, for the anti-fundamental representation N̄, which we denote as , we haveA() = 1.

26 Jun 2024: SWilson =. 2N. X. W W. †. (4.20). Because we’re in Euclidean spacetime, the parameter plays the same role as the in-. ... Only the plaquettes of a specific orientation. in the Wilson action (4.20) will contribute (e.g.

2 Jul 2024: It is given by. =eH. Z(5.20). where H is the Hamiltonian.

26 Jun 2024: potential,. NX. a=1. |a|2 = v2 (7.20). This restricts the values of the complex fields to lie on a S2N1 sphere of radius v2. ... it to impose the constraint (7.20) as a delta function. This will result in some strange.

26 Jun 2024: 1.20). To construct representations, the first thing we do is look to the Casimirs. ... 1.56). Again, there are similar expressions for right-handed spinors. – 20 –. There’s quite a bit more to say about the two dierent representations of the