2014
DOI: 10.1007/jhep05(2014)143
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Solving 2D QCD with an adjoint fermion analytically

Abstract: We present an analytic approach to solving 1+1 dimensional QCD with an adjoint Majorana fermion. In the UV this theory is described by a trivial CFT containing free fermions. The quasi-primary operators of this CFT lead to a discrete basis of states which is useful for diagonalizing the Hamiltonian of the full strongly interacting theory. Working at large-N , we find that the decoupling of high scaling-dimension quasi-primary operators from the low-energy spectrum occurs exponentially fast in their scaling-dim… Show more

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Cited by 55 publications
(100 citation statements)
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“…This light front quantization [9] is also used in numerical solutions of strongly coupled QFTs via a version of HT; some recent work is [10][11][12][13][14][15]. The structure of the unperturbed Hilbert space is different from the equal time case, which leads to important differences in the numerical procedure.…”
Section: Jhep10(2017)213mentioning
confidence: 99%
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“…This light front quantization [9] is also used in numerical solutions of strongly coupled QFTs via a version of HT; some recent work is [10][11][12][13][14][15]. The structure of the unperturbed Hilbert space is different from the equal time case, which leads to important differences in the numerical procedure.…”
Section: Jhep10(2017)213mentioning
confidence: 99%
“…In figure 4 we test it for the first three energy levels above the vacuum, which should correspond to the operators with dimensions ∆ σ = 1/8, ∆ ǫ = 1, ∆ ∂ 2 σ = 2 + 1/8. The error comes from extrapolating to 10 The central value corresponds to the smallest χ 2 (gc) = N i=1 (yi − f (xi)) 2 /erri 2 . The uncertainty interval was conservatively determined from the condition χ 2 (gc) 3 χ 2 (2.76).…”
Section: Jhep10(2017)213mentioning
confidence: 99%
“…We are specifically interested in those two-particle states that contribute to the spectral density of the operator φ 2 , which is even under the parity transformation p ⊥ → −p ⊥ . We can therefore restrict our basis to the symmetric, parity-even sector by only including the all minus states F (2) − . Just like the two-particle basis, our set of n-particle states must be symmetric under the exchange of any two momenta.…”
Section: Imposing Symmetrizationmentioning
confidence: 99%
“…Starting with the two-particle case, we see that this mass term leads to a matrix element correction of the form We can then use our new Dirichlet basis functions to rewrite this correction as the integral δM˜ k,˜ k = m 2 dµ 2 µ g (2) k (µ)g (2) k (µ) dp − p − (P − − p − ) F (2) (p) F (2) (p) P − p − + P − P − − p − .…”
Section: F1 Mass Termsmentioning
confidence: 99%
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