Academic literature on the topic 'The Higgs field'

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Journal articles on the topic "The Higgs field"

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ZÚÑIGA ROJAS, RONALD A. "A BRIEF SURVEY OF HIGGS BUNDLES." Revista de Matemática: Teoría y Aplicaciones 26, no. 2 (2019): 197–214. http://dx.doi.org/10.15517/rmta.v26i2.38315.

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Considering a compact Riemann surface of genus greater or equal than two, a Higgs bundle is a pair composed of a holomorphic bundle over the Riemann surface, joint with an auxiliar vector field, so-called Higgs field. This theory started around thirty years ago, with Hitchin’s work, when he reduced the self-duality equations from dimension four to dimension two, and so, studied those equations over Riemann surfaces. Hitchin baptized those fields as Higgs fields because in the context of physics and gauge theory, they describe similar particles to those described by the Higgs bosson. Later, Simpson used the name Higgs bundle for a holomorphic bundle together with a Higgs field. Today, Higgs bundles are the subject of research in several areas such as non-abelian Hodge theory, Langlands, mirror symmetry, integrable systems, quantum field theory (QFT), among others. The main purposes here are to introduce these objects, and to present a brief but complete construction of the moduli space of Higgs bundles.
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SARDANASHVILY, G. "GEOMETRY OF CLASSICAL HIGGS FIELDS." International Journal of Geometric Methods in Modern Physics 03, no. 01 (2006): 139–48. http://dx.doi.org/10.1142/s0219887806001065.

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In gauge theory, Higgs fields are responsible for spontaneous symmetry breaking. In classical gauge theory on a principal bundle P, a symmetry breaking is defined as the reduction of a structure group of this principal bundle to a subgroup H of exact symmetries. This reduction takes place if and only if there exists a global section of the quotient bundle P/H. It is a classical Higgs field. A metric gravitational field exemplifies such a Higgs field. We summarize the basic facts on the reduction in principal bundles and geometry of Higgs fields. Our goal is the particular covariant differential in the presence of a Higgs field.
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Dehnen, H., H. Frommert, and F. Ghaboussi. "Higgs-field gravity." International Journal of Theoretical Physics 29, no. 6 (1990): 537–46. http://dx.doi.org/10.1007/bf00672029.

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Edery, Ariel, and Yu Nakayama. "Generating Einstein gravity, cosmological constant and Higgs mass from restricted Weyl invariance." Modern Physics Letters A 30, no. 30 (2015): 1550152. http://dx.doi.org/10.1142/s0217732315501527.

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Recently, it has been pointed out that dimensionless actions in four-dimensional curved spacetime possess a symmetry which goes beyond scale invariance but is smaller than full Weyl invariance. This symmetry was dubbed restricted Weyl invariance. We show that starting with a restricted Weyl invariant action that includes a Higgs sector with no explicit mass, one can generate the Einstein–Hilbert action with cosmological constant and a Higgs mass. The model also contains an extra massless scalar field which couples to the Higgs field (and gravity). If the coupling of this extra scalar field to the Higgs field is negligibly small, this fixes the coefficient of the nonminimal coupling [Formula: see text] between the Higgs field and gravity. Besides the Higgs sector, all the other fields of the Standard Model can be incorporated into the original restricted Weyl invariant action.
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DAS, MOUMITA, and SUBHENDRA MOHANTY. "MAGNETIC FIELD GENERATION IN HIGGS INFLATION MODEL." International Journal of Modern Physics A 27, no. 08 (2012): 1250040. http://dx.doi.org/10.1142/s0217751x12500406.

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We study the generation of magnetic field in Higgs inflation models where the Standard Model Higgs boson has a large coupling to the Ricci scalar. We couple the Higgs field to the electromagnetic fields via a nonrenormalizable dimension six operator suppressed by the Planck scale in the Jordan frame. We show that by choosing the Higgs coupling λ(MZ) = 0.132 (which corresponds to mh = 126 GeV in keeping with the recent measurements by ATLAS and CMS) and curvature coupling ξ(MZ) = 103 we can generate comoving magnetic fields of 10-7 Gauss at present and comoving coherence length of 100 kpc. The problem of large back-reaction which is generic in the usual inflation models of magneto-genesis is avoided as the back-reaction is suppressed by the large Higgs-curvature coupling.
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Fukuyama, Takeshi, and Nobuchika Okada. "Alternative renormalizable minimal SO(10) GUT and seesaw scale." Modern Physics Letters A 33, no. 29 (2018): 1850167. http://dx.doi.org/10.1142/s0217732318501675.

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Alternative renormalizable minimal non-SUSY SO(10) GUT model is proposed. Instead of a 126-dimensional Higgs field, a 120-dimensional Higgs filed is introduced in addition to a 10-dimensional Higgs field and plays a crucial role to reproduce the realistic charged fermion mass matrices. With contributions of 120 Higgs field, the original Witten’s scenario of inducing the right-handed Majorana neutrino mass through 2-loop diagrams becomes phenomenologically viable. This model inherits the nice features of the conventional renormalizable minimal SO(10) GUT model with [Formula: see text] Higgs fields, while supplemented with a low scale seesaw mechanism due to the 2-loop induced right-handed Majorana neutrino mass.
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Horn, Bart. "The Higgs Field and Early Universe Cosmology: A (Brief) Review." Physics 2, no. 3 (2020): 503–20. http://dx.doi.org/10.3390/physics2030028.

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We review and discuss recent work exploring the implications of the Higgs field for early universe cosmology, and vice versa. Depending on the model under consideration, the Higgs may be one of a few scalar fields determining the evolution and fate of the Universe, or the Higgs field may be connected to a rich sector of scalar moduli with complicated dynamics. In particular, we look at the potential consequences of the Higgs field for inflation and its predictions, for the (meta)stability of the Standard Model vacuum, and for the existence of dynamical selection mechanisms in the landscape.
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Yong, Taiyi. "Some Basic Properties of Higgs Bosons." Highlights in Science, Engineering and Technology 17 (November 10, 2022): 324–27. http://dx.doi.org/10.54097/hset.v17i.2622.

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Known as one of the most hopeful fields to find the new particle—Higgs bosons and become even more important after it is proved by Higgs. Higgs and his colleagues further improve their observation of the Higgs Bosons through the Higgs mechanism. This paper will show the basic properties of the Higgs bosons, and some machines of the Higgs bosons. The spontaneous symmetry breaking, and the Higgs mechanism have also been introduced due to their necessity for the Higgs boson. This paper will be an introduction for anyone who is interested in this field.
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Mikura, Yusuke, and Yuichiro Tada. "On UV-completion of Palatini-Higgs inflation." Journal of Cosmology and Astroparticle Physics 2022, no. 05 (2022): 035. http://dx.doi.org/10.1088/1475-7516/2022/05/035.

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Abstract We investigate the UV-completion of the Higgs inflation in the metric and the Palatini formalisms. It is known that the cutoff scales for the perturbative unitarity of these inflation models become much smaller than the Planck scale to be consistent with observations. Expecting that the low cutoff scales originate in the curvature of a field-space spanned by the Higgs fields, we consider embedding the curved field-space into a higher dimensional flat space and apply this procedure to the metric-Higgs and the Palatini-Higgs scenarios. The new field introduced in this way successfully flattens the field-space and UV-completes the Higgs inflation in the metric formalism. However, in the Palatini formalism, the new field cannot uplift the cutoff up to the Planck scale. We also discuss the unavoidable low cutoff in the Palatini formalism in the context of the local conformal symmetry.
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Lusanna, Luca, and Paolo Valtancoli. "Dirac's Observables for the Higgs Model II: The Non-Abelian SU(2) Case." International Journal of Modern Physics A 12, no. 26 (1997): 4797–821. http://dx.doi.org/10.1142/s0217751x97002553.

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We search a canonical basis of Dirac's observables for the classical non-Abelian Higgs model with fermions in the case of a trivial SU(2) principal bundle with a complex doublet of Higgs fields and with the fermions in a given representation of SU(2). Since each one of the three Gauss law first class constraints can be solved either in the corresponding longitudinal electric field or in the corresponding Higgs momentum, we get a priori eight disjoint phases of solutions of the model. The only two phases with SU(2) covariance are the SU(2) phase with massless SU(2) fields and the Higgs phase with massive SU(2) fields. The Dirac observables and the reduced physical (local) Hamiltonian and (non-local) Lagrangian of the Higgs phase are evaluated:the main result is the nonanalyticity in the SU(2) coupling constant, or equivalently in the sum of the residual Higgs field and of the mass of the SU(2) fields. Some comments on the function spaces needed for the gauge fields are made.
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Dissertations / Theses on the topic "The Higgs field"

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Gu, Jiayin, Honglei Li, Zhen Liu, Shufang Su, and Wei Su. "Learning from Higgs physics at future Higgs factories." SPRINGER, 2017. http://hdl.handle.net/10150/626569.

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Future Higgs factories can reach impressive precision on Higgs property measurements. In this paper, instead of conventional focus of Higgs precision in certain interaction bases, we explore its sensitivity to new physics models at the electron-positron colliders. In particular, we study two categories of new physics models, Standard Model (SM) with a real scalar singlet extension, and Two Higgs Double Model (2HDM) as examples of weakly-interacting models, Minimal Composite Higgs Model (MCHM) and three typical patterns of the more general operator counting for strong interacting models as examples of strong dynamics. We perform a global fit to various Higgs search channels to obtain the 95% C.L. constraints on the model parameter space. In the SM with a singlet extension, we obtain the limits on the singlet-doublet mixing angle sin theta, as well as the more general Wilson coefficients of the induced higher dimensional operators. In the 2HDM, we analyze tree level effects in tan beta vs. cos(beta-alpha) plane, as well as the one-loop contributions from the heavy Higgs bosons in the alignment limit to obtain the constraints on heavy Higgs masses for different types of 2HDM. In strong dynamics models, we obtain lower limits on the strong dynamics scale. In addition, once deviations of Higgs couplings are observed, they can be used to distinguish different models. We also compare the sensitivity of various future Higgs factories, namely Circular Electron Positron Collider (CEPC), Future Circular Collider (FCC)-ee and International Linear Collider (ILC).
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Greenwood, Ross Norman. "Refining the multi-field effects of Higgs inflation." Thesis, Massachusetts Institute of Technology, 2012. http://hdl.handle.net/1721.1/78542.

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Thesis (S.B.)--Massachusetts Institute of Technology, Dept. of Physics, 2012.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (p. 37).<br>In this thesis, I investigated the extent to which the inclusion of multiple scalar fields in models of Higgs inflation produces observable departures from the single field case. I designed simulations to numerically solve the differential equations of motion in the Einstein frame governing the evolution of two nonminimally coupled fields in a quartic potential. Determining the behavior of the Hubble parameter, I found that successful inflation results in this model from a range of initial conditions. Based on calculations of the evolution of field perturbations by Courtney Peterson and Max Tegmark [6], the results suggest that the turn rate of the fields' combined velocity through field space has been sufficiently small since Hubble crossing that it may be excluded as a source of the amplification of perturbations in the Cosmic Microwave Background to their present size.<br>by Ross Norman Greenwood.<br>S.B.
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Schroeder, Christopher Robert. "Beyond the scalar Higgs, in lattice quantum field theory." Diss., [La Jolla] : University of California, San Diego, 2009. http://wwwlib.umi.com/cr/ucsd/fullcit?p3386720.

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Thesis (Ph. D.)--University of California, San Diego, 2009.<br>Title from first page of PDF file (viewed January 19, 2010). Available via ProQuest Digital Dissertations. Vita. Includes bibliographical references (p. 87-93).
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Spence, Stephen Timothy. "Twistor diagrams for a Higgs-like description of the massive propagator." Thesis, University of Oxford, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.320680.

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Krause, Claudius [Verfasser], and Gerhard [Akademischer Betreuer] Buchalla. "Higgs effective field theories : systematics and applications / Claudius Krause ; Betreuer: Gerhard Buchalla." München : Universitätsbibliothek der Ludwig-Maximilians-Universität, 2016. http://d-nb.info/1115144839/34.

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Neves, Alyson Bruno Fonseca. "VÓRTICES NA REDUÇÃO DIMENSIONAL DO MODELO DE MAXWELL-CARROLL-FIELD-JACKIW-HIGGS." Universidade Federal do Maranhão, 2012. http://tedebc.ufma.br:8080/jspui/handle/tede/736.

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Made available in DSpace on 2016-08-18T18:19:31Z (GMT). No. of bitstreams: 1 Dissertacao Alyson.pdf: 708260 bytes, checksum: 854f88bf5062df1a06c5ed3e0b27423b (MD5) Previous issue date: 2012-11-26<br>Coordenação de Aperfeiçoamento de Pessoal de Nível Superior<br>This monograph presents the study of vortices BPS in a model obtained by dimensional reduction of the (1+3)−D Maxwell-Carroll-Field-Jackiw-Higgs s electrodynamics to (1+2)−D. The Maxwell-Carroll-Field-Jackiw-Higgs model is defined by the following Lagrangian density L1+3 = −14FμνFμν −14 ϵμνκλ (kAF )μ AνFκλ + |Dμϕ|2 − V (|ϕ|), the first two terms constitute the CPT-odd electrodynamics of the standard model extension (SME). The term ϵμνκλ (kAF )μ AνFκλ is called the Carroll-Field-Jackiw s term. The dimensional reduction of this model is given by the following Lagrangian density L1+2 = − 14FμνFμν +s4 ϵμνκAμFνκ +12∂μψ∂μψ −12ϵμνκ (kAF )μ ψ∂νAκ−12 ϵμκν (kAF )μ Aκ∂νψ + |Dμϕ|2 − e2ψ2 |ϕ|2 − V (|ϕ|2 , ψ), it is observed that if (kAF )μ = 0 we obtain the Maxwell-Chern-Simons-Higgs (MCSH) model. This way, our planar model is a MCSH model modified by an interaction between the gauge field Aμ and the neutral scalar field ψ whose coupling constant is (kAF )μ, the Lorentz-violating vector field background. The existence of stable BPS v´ortices implies in a null (kAF )0 component. The study shows that the influence of the Lorentz violation is clearly manifested when the vortex s winding number is greater than 1.<br>Esta dissertação apresenta o estudo de vórtices BPS num modelo obtido pela redução dimensional da eletrodinâmica de Maxwell-Carroll-Field-Jackiw-Higgs de (1+3)-dimensões para (1+2)-D. A densidade lagrangiana do modelo de Maxwell-Carroll-Field-Jackiw-Higgs é definido por L1+3 = −14 FμνFμν − 14 ϵμνκλ (kAF )μ AνFκλ + |Dμϕ|2 − V (|ϕ|), os dois primeiros termos constituem a eletrodin amica CPT- ímpar do modelo padrão estendido (SME). O termo ϵμνκλ (kAF )μ AνFκλ é o chamado termo de Carroll-Field-Jackiw. A redução dimensional deste modelo é dado pela seguinte densidade lagrangiana L1+2 = − 14 FμνFμν + s4 ϵμνκAμFνκ + 12 ∂μψ∂μψ −12 ϵμνκ (kAF )μ ψ∂νAκ − 12 ϵμκν (kAF)μ Aκ∂νψ + |Dμϕ|2 − e2ψ2 |ϕ|2 − V (|ϕ|2 , ψ), observamos que se (kAF)μ = 0 se obtém o modelo de Maxwell-Chern-Simons-Higgs (MCSH). Desse modo o modelo planar representa um modelo de MCSH modificado por uma interação entre o campo de gauge Aμ e o campo neutro ψ cuja constante de acoplamento é (kAF )μ, o campo de fundo vetorial portador dos efeitos da violação de Lorentz. Impondo que a componente (kAF)0 seja nula é possível estabelecer soluções estáveis tipo vórtices BPS. O estudo mostra que a influência da violação de Lorentz é manifesta claramente quando o winding number do vórtice é maior que 1.
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Hoff, da Silva Julio Marny [UNESP]. "Soluções tipo vórtex em teorias de gauge Chern-Simons-Maxwell-Higgs." Universidade Estadual Paulista (UNESP), 2005. http://hdl.handle.net/11449/138351.

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Made available in DSpace on 2016-05-17T16:50:50Z (GMT). No. of bitstreams: 0 Previous issue date: 2005-10-27. Added 1 bitstream(s) on 2016-05-17T16:54:27Z : No. of bitstreams: 1 000856868.pdf: 438440 bytes, checksum: 78be6d2b0bfba08533285daf02d77016 (MD5)<br>Neste trabalho fazemos uma introdução sistemática ao conceito de soluções do tipo vórtex em teorias de gauge planares. Tais soluções são analisadas através do mecanismo de Bogomol'nyi e do grupo fundamental de homotopia e são obtidas para os modelos de Higgs abeliano com e sem o termo de Chern-Simons (CS), além de uma análise completa incluindo o modelo de Higgs com os termos de CS e de Maxwell<br>In this work we make a systematic introduction to the concept of vortex solutions in flat gauge theories. Such solutions are analyzed through the Bogomol'nyi's mechanism and the basic group of homotopy and are gotten for the models of abelian Higgs with and without Chern-Simons (CS) term, beyond a complete analyses including the Higgs model with CS and Maxwell's term
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Hoff, da Silva Julio Marny. "Soluções tipo vórtex em teorias de gauge Chern-Simons-Maxwell-Higgs /." São Paulo, 2005. http://hdl.handle.net/11449/138351.

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Orientador: Maria Cristina Batoni Abdalla Ribeiro<br>Banca: José Abdalla Helaÿel-Neto<br>Banca: Maria Emília Xavier Guimarães<br>Resumo: Neste trabalho fazemos uma introdução sistemática ao conceito de soluções do tipo vórtex em teorias de gauge planares. Tais soluções são analisadas através do mecanismo de Bogomol'nyi e do grupo fundamental de homotopia e são obtidas para os modelos de Higgs abeliano com e sem o termo de Chern-Simons (CS), além de uma análise completa incluindo o modelo de Higgs com os termos de CS e de Maxwell<br>Abstract: In this work we make a systematic introduction to the concept of vortex solutions in flat gauge theories. Such solutions are analyzed through the Bogomol'nyi's mechanism and the basic group of homotopy and are gotten for the models of abelian Higgs with and without Chern-Simons (CS) term, beyond a complete analyses including the Higgs model with CS and Maxwell's term<br>Mestre
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Obodi, G. N. "Monte Carlo studies of gε⁴ scaler field and the Abelian-Higgs theories in 3-dimensions". Thesis, Imperial College London, 1985. http://hdl.handle.net/10044/1/37805.

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Scott, Darren James. "Effective field theories for top quarks at the LHC and physics beyond the Higgs boson." Thesis, Durham University, 2017. http://etheses.dur.ac.uk/12439/.

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In this thesis we have considered applications of two different types of effective field theory. The first of these, Soft Collinear Effective Theory (SCET) has been applied to the calculation of top quark pair production at hadron colliders. Building on factorisation theorems developed using SCET we present results for resummed differential cross sections of the top pair invariant mass. The highest accuracy of resummation achieved and matched to fixed order is at NNLO+NNLL'. Resummed predictions are compared to fixed order ones and we find that while the (N)NLO results can be sensitive to the choice of factorisation scale, the resummed results exhibit more stable behaviour. We perform a number of additional analyses to further investigate the choice of scale on the invariant mass distribution. In addition, we also present results for the p_T distribution of the top quark. The second piece of work presented in this thesis concerns the use of the Standard Model Effective Field Theory (SMEFT). The SMEFT augments the Standard Model with higher dimensional operators which can be viewed as the low energy realisation of some as yet undiscovered physics at high scale. We use the dimension-6 SMEFT to calculate the QCD corrections to Higgs decay to bottom quarks at NLO. The main result of this section is the NLO partial decay rate for the Higgs including the dimension-6 Wilson coefficients. Finally we attempt to remove the presence of large mass logarithms through the conversion of the b-quark mass to the MS‾ scheme. We assess the reliability of this prediction in the limit of massless bottom quarks and find excellent agreement with the result with full mass dependence.
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Books on the topic "The Higgs field"

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Hitzer, Eckhard M. S. The Higgs-field theoretic extension of the spin-gauge theory of gravity. Hartung-Gorre, 1996.

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International, Conference on Supersymmetry and Unification of Fundamental Interactions (14th 2006 Irvine California). SUSY06: The 14th international conference on supersymmetry and the unification of fundamental interactions Irvine, California 12 - 17 June 2006. American Institute of Physics, 2007.

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International Conference on Supersymmetry and Unification of Fundamental Interactions (10th 2002 Hamburg, Germany). The 10th International Conference on Supersymmetry and Unification of Fundamental Interactions. Edited by Pran Nath 1939-, Zerwas P, and Deutsches Elektronen-Synchrotron (Center). Deutsches Elektronensynchrotron DESY, 2002.

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e̕man, Yuval Ne. The particle hunters. 2nd ed. Cambridge University Press, 1996.

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I, Kazakov D., and Gladyshev A. V, eds. Proceedings of the IX International Conference on Supersymmetry and Unification of Fundamental Interactions: Dubna, Russia, 11-17 June, 2001. World Scientific, 2002.

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Dong, P. V. The economical su(3)C X su(3)L X U(1)X gauge models. Vietnam Academy of Science and Technology, 2008.

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Cole, Patti. AFTERLIFE in the HIGGS FIELD. Brian H. Cole, 2023.

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Schneider, Steven. Sweet Charlotte in the Higgs Field. CreateSpace Independent Publishing Platform, 2016.

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Sweet Charlotte in the Higgs Field. Lulu Press, Inc., 2016.

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Schneider, Steven. Sweet Charlotte in the Higgs Field. Lulu Press, Inc., 2012.

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Book chapters on the topic "The Higgs field"

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Lyth, David H. "The Higgs Field." In Astronomers' Universe. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-22744-3_13.

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Steinwachs, Christian F. "Higgs Field in Cosmology." In Fundamental Theories of Physics. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51197-5_11.

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Stumpf, Harald, and Thomas Borne. "Superconductivity and Higgs Fields." In Composite Particle Dynamics in Quantum Field Theory. Vieweg+Teubner Verlag, 1994. http://dx.doi.org/10.1007/978-3-322-83901-5_10.

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Amaldi, Ugo. "In Search of the Higgs Field." In Particle Accelerators: From Big Bang Physics to Hadron Therapy. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-08870-9_5.

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Manoukian, E. B. "The Higgs Field and the God Particle." In 100 Years of Fundamental Theoretical Physics in the Palm of Your Hand. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51081-7_34.

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Morchio, G., and F. Strocchi. "Infrared Problem, Higgs Phenomenon and Long Range Interactions." In Fundamental Problems of Gauge Field Theory. Springer US, 1986. http://dx.doi.org/10.1007/978-1-4757-0363-4_7.

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Nill, Florian. "The Coleman-Weinberg Mechanism in the Abelian Lattice Higgs Model." In Constructive Quantum Field Theory II. Springer US, 1990. http://dx.doi.org/10.1007/978-1-4684-5838-1_16.

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Zeiger, Herbert J. "Optical Pump-Probe Experiments and the Higgs Field." In Amazing Light. Springer New York, 1996. http://dx.doi.org/10.1007/978-1-4612-2378-8_64.

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Balaban, Tadeusz, John Imbrie, and Arthur Jaffe. "Renormalization of the Higgs Model: Minimizers, Propagators and the Stability of Mean Field Theory." In Quantum Field Theory. Springer Berlin Heidelberg, 1985. http://dx.doi.org/10.1007/978-3-642-70307-2_17.

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Borgs, Christian. "First Order Phase Transitions in Large N Lattice Higgs Models and Pirogov Sinai Theory." In Constructive Quantum Field Theory II. Springer US, 1990. http://dx.doi.org/10.1007/978-1-4684-5838-1_15.

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Conference papers on the topic "The Higgs field"

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Kerner, Matthias. "Higgs Self-Coupling and Yukawa Corrections to Higgs Boson Pair Production." In Loops and Legs in Quantum Field Theory. Sissa Medialab, 2024. http://dx.doi.org/10.22323/1.467.0016.

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Davies, Joshua. "Higgs pair production at NNLO." In Loops and Legs in Quantum Field Theory. Sissa Medialab, 2024. http://dx.doi.org/10.22323/1.467.0015.

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Heinemeyer, Sven, Margarete Mühlleitner, Kateryna Radchenko, and Georg Ralf Weiglein. "Higgs Pair Production in the 2HDM: Impact of Loop Corrections to the Trilinear Higgs couplings." In Loops and Legs in Quantum Field Theory. Sissa Medialab, 2024. http://dx.doi.org/10.22323/1.467.0027.

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Catumba, Guilherme, Atsuki Hiraguchi, Karl Jansen, et al. "Progress in lattice simulations for two Higgs doublet models." In The 41st International Symposium on Lattice Field Theory. Sissa Medialab, 2025. https://doi.org/10.22323/1.466.0145.

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Long, Ming-Ming. "Non-factorizable corrections to Higgs production in Vector Boson Fusion." In Loops and Legs in Quantum Field Theory. Sissa Medialab, 2024. http://dx.doi.org/10.22323/1.467.0028.

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Greensite, Jeff, and Kazue Matsuyama. "What is the Higgs phase of a gauge Higgs theory?" In 37th International Symposium on Lattice Field Theory. Sissa Medialab, 2020. http://dx.doi.org/10.22323/1.363.0254.

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Espinosa, Jose Ramon. "Higgs Effective Field Theory." In Proceedings of the Corfu Summer Institute 2015. Sissa Medialab, 2016. http://dx.doi.org/10.22323/1.263.0012.

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Maas, Axel, and Tajdar Mufti. "Higgs Sector Spectroscopy." In 31st International Symposium on Lattice Field Theory LATTICE 2013. Sissa Medialab, 2014. http://dx.doi.org/10.22323/1.187.0056.

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Passarino, Giampiero. "Higgs lineshape." In “Loops and Legs in Quantum Field Theory ” 11th DESY Workshop on Elementary Particle Physics. Sissa Medialab, 2013. http://dx.doi.org/10.22323/1.151.0010.

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Abreu, Henso. "ATLAS Higgs search." In The XXth International Workshop High Energy Physics and Quantum Field Theory. Sissa Medialab, 2012. http://dx.doi.org/10.22323/1.138.0001.

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Reports on the topic "The Higgs field"

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Nicholson, A. F., and D. C. Kennedy. Gauge boson mass without a Higgs field: a simple model. Office of Scientific and Technical Information (OSTI), 1997. http://dx.doi.org/10.2172/467123.

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Lynch, James F. A Higgs Universe and the flow of time. Woods Hole Oceanographic Institution, 2024. http://dx.doi.org/10.1575/1912/69338.

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Theoretically considering velocities greater than c implies considering an observer’s past and extends the overall analysis into the complex plane. By using a series of rotations by i in the complex plane, one can create a four-lobed structure of “instants of time,” which together with considering matter and antimatter in the lobes and the +/- sense of the rotation, leads to a Higgs field representation of space and time. A 10x10 metric is developed for this system as well as a generalized spacetime interval. It is also shown that the Friedmann Equations are consistent with our “Higgs Cosmology” if generalized to a set of coupled equations that connect the forward and backward going solutions. Simple solutions for the forward and backward going universes are presented, and are shown to be consistent with the backward solution providing both inflation and a “cosmological constant” type of dark energy, Dark matter is also discussed and is hypothesized to be due to the mass of the four “Higgs sectors” as seen through the lens of relativity by an observer in our universe. A PowerPoint presentation on this work is presented at the end of the report as a supplement.
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Lynch, James F. A digital Higgs universe and the flow of time. Woods Hole Oceanographic Institution, 2024. http://dx.doi.org/10.1575/1912/70830.

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Theoretically considering velocities greater than c implies considering an observer’s past and extends the overall analysis into the complex plane. By using a series of rotations by i in the complex plane at the Planck scale, one can create a four-lobed structure of “instants of time,” which together with considering matter and antimatter in the lobes and the +/- sense of the rotation, leads to a Higgs field representation of spacetime. A metric is developed for this system as well as a generalized spacetime interval. It is shown that the Friedmann Equations are consistent with our “Higgs Cosmology” if generalized to a set of gravitationally coupled equations that connect the forward and backward going solutions. Simple solutions for the forward and backward going universes are presented and are shown to be consistent with the backward solution providing both inflation and a “cosmological constant” type of dark energy. Dark matter is discussed and is separately hypothesized to be due to the mass of the four “Higgs sectors” as seen by an observer in our universe. A digital, stroboscopic and holographic universe picture emerges which can also be viewed as a beginning theory of quantum gravity at the Planck scale.
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DAI, YANG, ALEXEY B. BORISOV, KEITH BOYER, and CHARLES K. RHODES. Computation with Inverse States in a Finite Field FP: The Muon Neutrino Mass, the Unified Strong-Electroweak Coupling Constant, and the Higgs Mass. Office of Scientific and Technical Information (OSTI), 2000. http://dx.doi.org/10.2172/761963.

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Chou, Chih-Lung. Supersymmetric Grand Unified Models without Adjoint Higgs Fields. Office of Scientific and Technical Information (OSTI), 1999. http://dx.doi.org/10.2172/10075.

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Kerr, D. E. Reconnaissance surficial geology, Bloody River, Northwest Territories-Nunavut, NTS 96-P. Natural Resources Canada/CMSS/Information Management, 2022. http://dx.doi.org/10.4095/329457.

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Preliminary surficial geology, based on airphoto interpretation and limited legacy field data of Bloody River map area, records a dynamic Late Wisconsin glacial landscape. Streamlined till and bedrock landforms, relating to Laurentide ice originating east of the map region, indicate regional westward flow diverged northwestward and southwestward at the eastern end of two topographic highs. Ice then converged between and south of these two highs, then diverged at the western end of these highlands. During deglaciation, ice stagnated in northwestern and central highland regions, forming extensive hummocky moraine, large kames, recessional moraines, and kame moraines. In other parts of the map area, hummocky till, small moraines, and undifferentiated till ridges, were deposited over fluted till. Outwash plains, eskers, and meltwater corridors record northwestward to southwestward meltwater flow. Glaciolacustrine sediments associated with glacial Lake McConnell occur in the southeast, up to 280 m elevation. Other unrelated, isolated glaciolacustrine deltas indicate small ice-marginal lakes between 400 and 460 m elevation.
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Perkins, Dustin. Invasive exotic plant monitoring at Fossil Butte National Monument: 2021 field season. Edited by Alice Wondrak Biel. National Park Service, 2022. http://dx.doi.org/10.36967/2288496.

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Invasive exotic plant (IEP) species are one of the biggest threats to natural ecosystem integrity and biodiversity, and controlling them is a high priority for the National Park Service. The Northern Colorado Plateau Network (NCPN) selected the early detection of IEPs as one of 11 monitoring protocols to be implemented as part of its long-term monitoring program. This report represents work completed during the 2021 field season at Fossil Butte National Monument (NM). From June 26 to 29, 2021, we recorded a total of 12 different priority IEP species during monitoring. A total of 763 priority IEP patches were recorded along 61.9 kilometers (38.5 mi) of 22 monitoring routes. Summer cypress (Bassia scoparia) was detected for the first time on monitoring routes along the Main Park Road. The highest densities of IEP patches were detected in several drainages and one trail: Sage Grouse Lek Drainage (32.7 patches/km), East Red Hill Drainage (19.4/km), Moose Bones Canyon (19.4/km), Main Park Road (19.0/km), West Fork Chicken Creek (17.6/km), Chicken Creek (15.0/km), Smallpox Creek (13.5/km) and the Historic Quarry Trail (11.1/km). The Fossil Butte Northwest, Wasatch Saddle, and North Dam Fork of Chicken Creek drainages were the only routes free of priority IEPs in 2021. Cheatgrass (Bromus tectorum), creeping foxtail (Alopecurus arundi-naceus), and Japanese brome (Bromus japonicus) were the most widespread species. Creeping foxtail continues to increase parkwide and along the Main Park Road and southern drainages. The two brome species have declined somewhat since 2018, but these species can fluctuate widely based on precipitation. Flixweed (Descurainia sophia), whitetop (Cardaria sp.), and quackgrass (Elymus repens) all appear to have declined since 2018 and their previous highs in earlier years. Control efforts by park staff are likely helping to prevent some IEP increases in the park. Network staff plan to return to Fossil Butte NM for an eighth round of monitoring in 2023.
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