417 research outputs found

    Een diffusiemodel voor de austeniet-ferriet transformatie in zuivere Fe-C legeringen onder de Al temperatuur

    No full text
    Mechanical, Maritime and Materials EngineeringTechnische Materiaalwetenschappe

    Diagnosing neuropathic pain in patients with cancer: comparative analysis of recommendations in national guidelines from European countries

    No full text
    BACKGROUND: Neuropathic pain is a prevalent symptom in patients with cancer, which needs a more specific algorithm than nociceptive pain or neuropathic pain from other origin. Clinical practice guidelines (CPGs) can be helpful in optimizing the diagnosis of neuropathic pain in patients with cancer. METHODS: In this study, 9 national CPGs in Europe on the diagnosis of neuropathic pain in patients with cancer were included. Recommendations with their grade (according SIGN 55 classification) and supporting literature (first author, patients' population, year, and type of publication) were compared between CPGs. RESULTS: Nine CPGs including recommendations on neuropathic pain could be selected and were assessed. In total, they used 149 references of which 72 (48%) were about cancer conditions, 39 (26%) about neuropathic pain, and only 3 about neuropathic pain in patients with cancer (2%). Only 28 (19%) references were shared between 2 or more guidelines. There was only one shared reference specifically related to cancer neuropathic pain. Recommendations and their evidence grading strongly differ between CPGs. CONCLUSION: This work demonstrates an important heterogeneity between European recommendations on diagnosis and assessment of neuropathic pain in patients with cancer. The main weaknesses are the low level of evidence and the absence of specific data focusing on neuropathic pain in patients with cancer. We recommend that physicians dealing with neuropathic pain in patients with cancer should be specially trained, that a specific methodology to develop CPGs should followed, and that specific research should be developed on the diagnosis of neuropathic pain in patients with cancer

    Treatment for neuropathic pain in patients with cancer: comparative analysis of recommendations in national clinical practice guidelines from European countries

    No full text
    INTRODUCTION: Neuropathic pain is a common symptom, present in 39% of the patients with cancer pain. Treating this type of pain is challenging, as this patient group is often frail and has comorbidities which increase the risk of side events and hence influences their quality of life. Clinical practice guidelines (CPGs) can be helpful for clinicians, especially when scientific evidence is uncertain or weak. In this study, we focused on the quality of the review of the literature used in treatment recommendations in the selected European CPGs. METHODS: In a previous study, 9 CPGs from European countries that contained at least one paragraph on treatment for neuropathic pain in cancer were included. Recommendations with their grade (according SIGN 55 classification) and supporting literature (first author, patients' population, year and type of publication) were compared between CPGs. RESULTS: In all CPGs, amitriptylin was mentioned as the drug of first choice. Six guidelines proposed also gabapentinoids. Only 30 of the 163 citations (18%) were based on studies in patients with cancer. Seven CPGs did not argue the indirect evidence due to extrapolation of study results from non-cancer to patients with cancer. CONCLUSION: The majority of guideline development groups extrapolated their results from non-cancer publications to formulate recommendations. Consequently, these guidelines fail to address important issues such as altered kinetics and side effect profiles in these patients. We recommend creating specific recommendations by an international expert group for the treatment for neuropathic pain in patients with cancer supported by targeted research in patients with cancer

    Search for non-resonant Higgs boson pair production in the bbℓνℓν final state with the ATLAS detector in pp collisions at s=13 TeV

    No full text
    A search for non-resonant Higgs boson pair production, as predicted by the Standard Model, is presented, where one of the Higgs bosons decays via the H→bb channel and the other via one of the H→WW⁎/ZZ⁎/ττ channels. The analysis selection requires events to have at least two b-tagged jets and exactly two leptons (electrons or muons) with opposite electric charge in the final state. Candidate events consistent with Higgs boson pair production are selected using a multi-class neural network discriminant. The analysis uses 139 fb−1 of pp collision data recorded at a centre-of-mass energy of 13 TeV by the ATLAS detector at the Large Hadron Collider. An observed (expected) upper limit of 1.2 (0.9−0.3 +0.4) pb is set on the non-resonant Higgs boson pair production cross-section at 95% confidence level, which is equivalent to 40 (29−9 +14) times the value predicted in the Standard Model. © 2019 The Author(s

    Measurement of the energy asymmetry in ttˉjt\bar{t}j production at 13 TeV with the ATLAS experiment and interpretation in the SMEFT framework

    No full text
    A measurement of the energy asymmetry in jet-associated top-quark pair production is presented using 139 fb1\mathrm{fb}^{-1} of data collected by the ATLAS detector at the Large Hadron Collider during pppp collisions at s=13\sqrt{s}=13 TeV. The observable measures the different probability of top and antitop quarks to have the higher energy as a function of the jet scattering angle with respect to the beam axis. The energy asymmetry is measured in the semileptonic ttˉt\bar{t} decay channel, and the hadronically decaying top quark must have transverse momentum above 350350 GeV. The results are corrected for detector effects to particle level in three bins of the scattering angle of the associated jet. The measurement agrees with the SM prediction at next-to-leading-order accuracy in quantum chromodynamics in all three bins. In the bin with the largest expected asymmetry, where the jet is emitted perpendicular to the beam, the energy asymmetry is measured to be 0.043±0.020-0.043\pm0.020, in agreement with the SM prediction of 0.037±0.003-0.037\pm0.003. Interpreting this result in the framework of the Standard Model effective field theory (SMEFT), it is shown that the energy asymmetry is sensitive to the top-quark chirality in four-quark operators and is therefore a valuable new observable in global SMEFT fits.Comment: 52 pages in total, author list starting page 37, 10 figures, 4 tables, submitted to EPJC. All figures including auxiliary figures are available at https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/TOPQ-2019-2

    A search for an unexpected asymmetry in the production of e+μe^+ \mu^- and eμ+e^- \mu^+ pairs in proton-proton collisions recorded by the ATLAS detector at s=13\sqrt s = 13 TeV

    No full text
    This search, a type not previously performed at ATLAS, uses a comparison of the production cross sections for e+μe^+ \mu^- and eμ+e^- \mu^+ pairs to constrain physics processes beyond the Standard Model. It uses 139fb1139 \text{fb}^{-1} of proton-proton collision data recorded at s=13\sqrt{s} = 13 TeV at the LHC. Targeting sources of new physics which prefer final states containing e+μe^{+}\mu^{-} to eμ+e^{-}\mu^{+}, the search contains two broad signal regions which are used to provide model-independent constraints on the ratio of cross sections at the 2% level. The search also has two special selections targeting supersymmetric models and leptoquark signatures. Observations using one of these selections are able to exclude, at 95% confidence level, singly produced smuons with masses up to 640 GeV in a model in which the only other light sparticle is a neutralino when the RR-parity-violating coupling λ231\lambda'_{231} is close to unity. Observations using the other selection exclude scalar leptoquarks with masses below 1880 GeV when g1Reu=g1Rμc=1g_{\text{1R}}^{eu}=g_{\text{1R}}^{\mu c}=1, at 95% confidence level. The limit on the coupling reduces to g1Reu=g1Rμc=0.46g_{\text{1R}}^{eu}=g_{\text{1R}}^{\mu c}=0.46 for a mass of 1420 GeV.Comment: 38 pages in total, author list starting page 22, 8 figures, 1 table, submitted to Physics Letters B. All figures including auxiliary figures are available at https://atlas.web.cern.ch/Atlas/GROUPS/PHYSICS/PAPERS/EXOT-2018-29

    Search for displaced vertices of oppositely charged leptons from decays of long-lived particles in pp collisions at s=13 TeV with the ATLAS detector

    No full text
    A search for long-lived particles decaying into an oppositely charged lepton pair, μμ, ee, or eμ, is presented using 32.8fb−1 of pp collision data collected at s=13 TeV by the ATLAS detector at the LHC. Candidate leptons are required to form a vertex, within the inner tracking volume of ATLAS, displaced from the primary pp interaction region. No lepton pairs with an invariant mass greater than 12 GeV are observed, consistent with the background expectations derived from data. The detection efficiencies for generic resonances with lifetimes (cτ) of 100–1000 mm decaying into a dilepton pair with masses between 0.1–1.0 TeV are presented as a function of pT and decay radius of the resonances to allow the extraction of upper limits on the cross sections for theoretical models. The result is also interpreted in a supersymmetric model in which the lightest neutralino, produced via squark–antisquark production, decays into ℓ+ℓ′−ν (ℓ,ℓ′=e, μ) with a finite lifetime due to the presence of R-parity violating couplings. Cross-section limits are presented for specific squark and neutralino masses. For a 700 GeV squark, neutralinos with masses of 50–500 GeV and mean proper lifetimes corresponding to cτ values between 1 mm to 6 m are excluded. For a 1.6 TeV squark, cτ values between 3 mm to 1 m are excluded for 1.3 TeV neutralinos. © 2019 The Author(s

    Higgs boson pair production at colliders: status and perspectives

    No full text
    This document summarises the current theoretical and experimental status of the di-Higgs boson production searches, and of the direct and indirect constraints on the Higgs boson self-coupling, with the wish to serve as a useful guide for the next years. The document discusses the theoretical status, including state-of-the-art predictions for di-Higgs cross sections, developments on the effective field theory approach, and studies on specific new physics scenarios that can show up in the di-Higgs final state. The status of di-Higgs searches and the direct and indirect constraints on the Higgs self-coupling at the LHC are presented, with an overview of the relevant experimental techniques, and covering all the variety of relevant signatures. Finally, the capabilities of future colliders in determining the Higgs self-coupling are addressed, comparing the projected precision that can be obtained in such facilities. The work has started as the proceedings of the Di-Higgs workshop at Colliders, held at Fermilab from the 4th to the 9th of September 2018, but it went beyond the topics discussed at that workshop and included further developments. FERMILAB-CONF-19-468-E-T, LHCHXSWG-2019-005This document summarises the current theoretical and experimental status of the di-Higgs boson production searches, and of the direct and indirect constraints on the Higgs boson self-coupling, with the wish to serve as a useful guide for the next years. The document discusses the theoretical status, including state-of-the-art predictions for di-Higgs cross sections, developments on the effective field theory approach, and studies on specific new physics scenarios that can show up in the di-Higgs final state. The status of di-Higgs searches and the direct and indirect constraints on the Higgs self-coupling at the LHC are presented, with an overview of the relevant experimental techniques, and covering all the variety of relevant signatures. Finally, the capabilities of future colliders in determining the Higgs self-coupling are addressed, comparing the projected precision that can be obtained in such facilities. The work has started as the proceedings of the Di-Higgs workshop at Colliders, held at Fermilab from the 4th to the 9th of September 2018, but it went beyond the topics discussed at that workshop and included further developments. FERMILAB-CONF-19-468-E-T, LHCHXSWG-2019-005This document summarises the current theoretical and experimental status of the di-Higgs boson production searches, and of the direct and indirect constraints on the Higgs boson self-coupling, with the wish to serve as a useful guide for the next years. The document discusses the theoretical status, including state-of-the-art predictions for di-Higgs cross sections, developments on the effective field theory approach, and studies on specific new physics scenarios that can show up in the di-Higgs final state. The status of di-Higgs searches and the direct and indirect constraints on the Higgs self-coupling at the LHC are presented, with an overview of the relevant experimental techniques, and covering all the variety of relevant signatures. Finally, the capabilities of future colliders in determining the Higgs self-coupling are addressed, comparing the projected precision that can be obtained in such facilities. The work has started as the proceedings of the Di-Higgs workshop at Colliders, held at Fermilab from the 4th to the 9th of September 2018, but it went beyond the topics discussed at that workshop and included further developments

    Combination of the W boson polarization measurements in top quark decays using ATLAS and CMS data at √s = 8 TeV

    No full text
    none5201siThe combination of measurements of the W boson polarization in top quark decays performed by the ATLAS and CMS collaborations is presented. The measurements are based on proton-proton collision data produced at the LHC at a centre-of-mass energy of 8 TeV, and corresponding to an integrated luminosity of about 20 fb−1 for each experiment. The measurements used events containing one lepton and having different jet multiplicities in the final state. The results are quoted as fractions of W bosons with longitudinal (F0), left-handed (FL), or right-handed (FR) polarizations. The resulting combined measurements of the polarization fractions are F0 = 0.693 ± 0.014 and FL = 0.315 ± 0.011. The fraction FR is calculated from the unitarity constraint to be FR = −0.008 ± 0.007. These results are in agreement with the standard model predictions at next-to-next-to-leading order in perturbative quantum chromodynamics and represent an improvement in precision of 25 (29)% for F0 (FL) with respect to the most precise single measurement. A limit on anomalous right-handed vector (VR), and left- and right-handed tensor (gL, gR) tWb couplings is set while fixing all others to their standard model values. The allowed regions are [−0.11, 0.16] for VR, [−0.08, 0.05] for gL, and [−0.04, 0.02] for gR, at 95% confidence level. Limits on the corresponding Wilson coefficients are also derived. [Figure not available: see fulltext.]openAad G.; Abbott B.; Abbott D.C.; Abed Abud A.; Abeling K.; Abhayasinghe D.K.; Abidi S.H.; Abou Zeid O.S.; Abraham N.L.; Abramowicz H.; Abreu H.; Abulaiti Y.; Acharya B.S.; Achkar B.; Adam L.; Adam Bourdarios C.; Adamczyk L.; Adamek L.; Adelman J.; Adersberger M.; Adiguzel A.; Adorni S.; Adye T.; Affolder A.A.; Afik Y.; Agapopoulou C.; Agaras M.N.; Aggarwal A.; Agheorghiesei C.; Aguilar-Saavedra J.A.; Ahmad A.; Ahmadov F.; Ahmed W.S.; Ai X.; Aielli G.; Akatsuka S.; Akesson T.P.A.; Akilli E.; Akimov A.V.; AlKhoury K.; Alberghi G.L.; Albert J.; Alconada Verzini M.J.; Alderweireldt S.; Aleksa M.; Aleksandrov I.N.; Alexa C.; Alexopoulos T.; Alfonsi A.; Alfonsi F.; Alhroob M.; Ali B.; Ali S.; Aliev M.; Alimonti G.; Allaire C.; Allbrooke B.M.M.; Allen B.W.; Allport P.P.; Aloisio A.; Alonso F.; Alpigiani C.; Alshehri A.A.; Alunno Camelia E.; Alvarez Estevez M.; Alviggi M.G.; Amaral Coutinho Y.; Ambler A.; Ambroz L.; Amelung C.; Amidei D.; Amor Dos Santos S.P.; Amoroso S.; Amrouche C.S.; An F.; Anastopoulos C.; Andari N.; Andeen T.; Anders C.F.; Anders J.K.; Andrean S.Y.; Andreazza A.; Andrei V.; Anelli C.R.; Angelidakis S.; Angerami A.; Anisenkov A.V.; Annovi A.; Antel C.; Anthony M.T.; Antipov E.; Antonelli M.; Antrim D.J.A.; Anulli F.; Aoki M.; Aparisi Pozo J.A.; Aparo M.A.; Aperio Bella L.; Araujo Ferraz V.; Araujo Pereira R.; Arcangeletti C.; Arce A.T.H.; Arduh F.A.; Arguin J.-F.; Argyropoulos S.; Arling J.-H.; Armbruster A.J.; Armstrong A.; Arnaez O.; Arnold H.; Arrubarrena Tame Z.P.; Artoni G.; Artz S.; Asai S.; Asawatavonvanich T.; Asbah N.; Asimakopoulou E.M.; Asquith L.; Assahsah J.; Assamagan K.; Astalos R.; Atkin R.J.; Atkinson M.; Atlay N.B.; Atmani H.; Augsten K.; Avolio G.; Ayoub M.K.; Azuelos G.; Bachacou H.; Bachas K.; Backes M.; Backman F.; Bagnaia P.; Bahmani M.; Bahrasemani H.; Bailey A.J.; Bailey V.R.; Baines J.T.; Bakalis C.; Baker O.K.; Bakker P.J.; Bakshi Gupta D.; Balaji S.; Baldin E.M.; Balek P.; Balli F.; Balunas W.K.; Balz J.; Banas E.; Bandieramonte M.; Bandyopadhyay A.; Banerjee S.; Barak L.; Barbe W.M.; Barberio E.L.; Barberis D.; Barbero M.; Barbour G.; Barillari T.; Barisits M.-S.; Barkeloo J.; Barklow T.; Barnea R.; Barnett B.M.; Barnett R.M.; Barnovska-Blenessy Z.; Baroncelli A.; Barone G.; Barr A.J.; Barranco Navarro L.; Barreiro F.; Barreiro Guimaraesda Costa J.; Barron U.; Barsov S.; Bartels F.; Bartoldus R.; Bartolini G.; Barton A.E.; Bartos P.; Basalaev A.; Basan A.; Bassalat A.; Basso M.J.; Bates R.L.; Batlamous S.; Batley J.R.; Batool B.; Battaglia M.; Bauce M.; Bauer F.; Bauer K.T.; Bawa H.S.; Beacham J.B.; Beau T.; Beauchemin P.H.; Becherer F.; Bechtle P.; Beck H.C.; Beck H.P.; Becker K.; Becot C.; Beddall A.; Beddall A.J.; Bednyakov V.A.; Bedognetti M.; Bee C.P.; Beermann T.A.; Begalli M.; Begel M.; Behera A.; Behr J.K.; Beisiegel F.; Bell A.S.; Bella G.; Bellagamba L.; Bellerive A.; Bellos P.; Beloborodov K.; Belotskiy K.; Belyaev N.L.; Benchekroun D.; Benekos N.; Benhammou Y.; Benjamin D.P.; Benoit M.; Bensinger J.R.; Bentvelsen S.; Beresford L.; Beretta M.; Berge D.; Bergeaas Kuutmann E.; Berger N.; Bergmann B.; Bergsten L.J.; Beringer J.; Berlendis S.; Bernardi G.; Bernius C.; Bernlochner F.U.; Berry T.; Berta P.; Bertella C.; Bertram I.A.; Bessidskaia Bylund O.; Besson N.; Bethani A.; Bethke S.; Betti A.; Bevan A.J.; Beyer J.; Bhattacharya D.S.; Bhattarai P.; Bi R.; Bianchi R.M.; Biebel O.; Biedermann D.; Bielski R.; Bierwagen K.; Biesuz N.V.; Biglietti M.; Billoud T.R.V.; Bindi M.; Bingul A.; Bini C.; Biondi S.; Birman M.; Bisanz T.; Biswal J.P.; Biswas D.; Bitadze A.; Bittrich C.; Bjorke K.; Blazek T.; Bloch I.; Blocker C.; Blue A.; Blumenschein U.; Bobbink G.J.; Bobrovnikov V.S.; Bocchetta S.S.; Bocci A.; Boerner D.; Bogavac D.; Bogdanchikov A.G.; Bohm C.; Boisvert V.; Bokan P.; Bold T.; Bolz A.E.; Bomben M.; Bona M.; Bonilla J.S.; Boonekamp M.; Booth C.D.; Borecka-Bielska H.M.; Borgna L.S.; Borisov A.; Borissov G.; Bortfeldt J.; Bortoletto D.; Boscherini D.; Bosman M.; BossioSola J.D.; Bouaouda K.; Boudreau J.; Bouhova-Thacker E.V.; Boumediene D.; Boutle S.K.; Boveia A.; Boyd J.; Boye D.; Boyko I.R.; Bozson A.J.; Bracinik J.; Brahimi N.; Brandt G.; Brandt O.; Braren F.; Brau B.; Brau J.E.; Breaden Madden W.D.; Brendlinger K.; Brenner L.; Brenner R.; Bressler S.; Brickwedde B.; Briglin D.L.; Britton D.; Britzger D.; Brock I.; Brock R.; Brooijmans G.; Brooks W.K.; Brost E.; Bruckmande Renstrom P.A.; Bruncko D.; Bruni A.; Bruni G.; Bruni L.S.; Bruno S.; Bruschi M.; Bruscino N.; Bryngemark L.; Buanes T.; Buat Q.; Buchholz P.; Buckley A.G.; Budagov I.A.; Bugge M.K.; Buhrer F.; Bulekov O.; Burch T.J.; Burdin S.; Burgard C.D.; Burger A.M.; Burghgrave B.; Burr J.T.P.; Burton C.D.; Burzynski J.C.; Buscher V.; Buschmann E.; Bussey P.J.; Butler J.M.; Buttar C.M.; Butterworth J.M.; Butti P.; Buttinger W.; BuxoVazquez C.J.; Buzatu A.; Buzykaev A.R.; Cabras G.; Cabrera Urban S.; Caforio D.; Cai H.; Cairo V.M.M.; Cakir O.; Calace N.; Calafiura P.; Calderini G.; Calfayan P.; Callea G.; Caloba L.P.; Caltabiano A.; Calvente Lopez S.; Calvet D.; Calvet S.; Calvet T.P.; Calvetti M.; Camacho Toro R.; Camarda S.; Camarero Munoz D.; Camarri P.; Camerlingo M.T.; Cameron D.; Camincher C.; Campana S.; Campanelli M.; Camplani A.; Campoverde A.; Canale V.; Canesse A.; CanoBret M.; Cantero J.; Cao T.; Cao Y.; Capeans Garrido M.D.M.; Capua M.; Cardarelli R.; Cardillo F.; Carducci G.; Carli I.; Carli T.; Carlino G.; Carlson B.T.; Carlson E.M.; Carminati L.; Carney R.M.D.; Caron S.; Carquin E.; Carra S.; Carter J.W.S.; Casado M.P.; Casha A.F.; Castillo F.L.; Castillo Garcia L.; Castillo Gimenez V.; Castro N.F.; Catinaccio A.; Catmore J.R.; Cattai A.; Cavaliere V.; Cavallaro E.; Cavasinni V.; Celebi E.; Cerda Alberich L.; Cerny K.; Cerqueira A.S.; Cerri A.; Cerrito L.; Cerutti F.; Cervelli A.; Cetin S.A.; Chadi Z.; Chakraborty D.; Chan J.; Chan W.S.; Chan W.Y.; Chapman J.D.; Chargeishvili B.; Charlton D.G.; Charman T.P.; Chau C.C.; Che S.; Chekanov S.; Chekulaev S.V.; Chelkov G.A.; Chen B.; Chen C.; Chen C.H.; Chen H.; Chen J.; Chen J.; Chen J.; Chen S.; Chen S.J.; Chen X.; Chen Y.; Chen Y.-H.; Cheng H.C.; Cheng H.J.; Cheplakov A.; Cheremushkina E.; Cherkaoui El Moursli R.; Cheu E.; Cheung K.; Chevalerias T.J.A.; Chevalier L.; Chiarella V.; Chiarelli G.; Chiodini G.; Chisholm A.S.; Chitan A.; Chiu I.; Chiu Y.H.; Chizhov M.V.; Choi K.; Chomont A.R.; Chouridou S.; Chow Y.S.; Chu M.C.; Chu X.; Chudoba J.; Chwastowski J.J.; Chytka L.; Cieri D.; Ciesla K.M.; Cinca D.; Cindro V.; Cioara I.A.; Ciocio A.; Cirotto F.; Citron Z.H.; Citterio M.; Ciubotaru D.A.; Ciungu B.M.; Clark A.; Clark M.R.; Clark P.J.; Clawson S.E.; Clement C.; Coadou Y.; Cobal M.; Coccaro A.; Cochran J.; Coelho Lopes DeSa R.; Cohen H.; Coimbra A.E.C.; Cole B.; Colijn A.P.; Collot J.; CondeMuino P.; Connell S.H.; Connelly I.A.; Constantinescu S.; Conventi F.; Cooper-Sarkar A.M.; Cormier F.; Cormier K.J.R.; Corpe L.D.; Corradi M.; Corrigan E.E.; Corriveau F.; Cortes-Gonzalez A.; Costa M.J.; Costanza F.; Costanzo D.; Cowan G.; Cowley J.W.; Crane J.; Cranmer K.; Crawley S.J.; Creager R.A.; Crepe-Renaudin S.; Crescioli F.; Cristinziani M.; Croft V.; Crosetti G.; Cueto A.; Cuhadar Donszelmann T.; Cukierman A.R.; Cunningham W.R.; Czekierda S.; Czodrowski P.; Czurylo M.M.; Da Cunha Sargedas De Sousa M.J.; Da Fonseca Pinto J.V.; Da Via C.; Dabrowski W.; Dachs F.; Dado T.; Dahbi S.; Dai T.; Dallapiccola C.; Dam M.; D'amen G.; D'Amico V.; Damp J.; Dandoy J.R.; Daneri M.F.; Dann N.S.; Danninger M.; Dao V.; Darbo G.; Dartsi O.; Dattagupta A.; Daubney T.; D'Auria S.; David C.; Davidek T.; Davis D.R.; Dawson I.; De K.; De Asmundis R.; De Beurs M.; De Castro S.; De Cecco S.; De Groot N.; de Jong P.; Dela Torre H.; De Maria A.; De Pedis D.; De Salvo A.; De Sanctis U.; De Santis M.; De Santo A.; De Vasconcelos Corga K.; De Vivie De Regie J.B.; Debenedetti C.; Dedovich D.V.; Deiana A.M.; Del Peso J.; Delabat Diaz Y.; Delgove D.; Deliot F.; Delitzsch C.M.; Della Pietra M.; Della Volpe D.; Dell'Acqua A.; Dell'Asta L.; Delmastro M.; Delporte C.; Delsart P.A.; De Marco D.A.; Demers S.; Demichev M.; Demontigny G.; Denisov S.P.; D'Eramo L.; Derendarz D.; Derkaoui J.E.; Derue F.; Dervan P.; Desch K.; Deterre C.; Dette K.; Deutsch C.; Devesa M.R.; Deviveiros P.O.; Di Bello F.A.; Di Ciaccio A.; Di Ciaccio L.; Di Clemente W.K.; Di Donato C.; Di Girolamo A.; Di Gregorio G.; Di Micco B.; Di Nardo R.; Di Petrillo K.F.; Di Sipio R.; Diaconu C.; Dias F.A.; Dias Do Vale T.; Diaz M.A.; Dickinson J.; Diehl E.B.; Dietrich J.; Diez Cornell S.; Dimitrievska A.; Ding W.; Dingfelder J.; Dittus F.; Djama F.; Djobava T.; Djuvsland J.I.; Do Vale M.A.B.; Dobre M.; Dodsworth D.; Doglioni C.; Dolejsi J.; Dolezal Z.; Donadelli M.; Dong B.; Donini J.; D'onofrio A.; D'Onofrio M.; Dopke J.; Doria A.; Dova M.T.; Doyle A.T.; Drechsler E.; Dreyer E.; Dreyer T.; Drobac A.S.; Du D.; Duan Y.; Dubinin F.; Dubovsky M.; Dubreuil A.; Duchovni E.; Duckeck G.; Ducu O.A.; Duda D.; Dudarev A.; Dudder A.C.; Duffield E.M.; Duflot L.; Duhrssen M.; Dulsen C.; Dumancic M.; Dumitriu A.E.; Duncan A.K.; Dunford M.; Duperrin A.; Duran Yildiz H.; Duren M.; Durglishvili A.; Duschinger D.; Dutta B.; Duvnjak D.; Dyckes G.I.; Dyndal M.; Dysch S.; Dziedzic B.S.; Ecker K.M.; Eggleston M.G.; Eifert T.; Eigen G.; Einsweiler K.; Ekelof T.; ElJarrari H.; ElKosseifi R.; Ellajosyula V.; Ellert M.; Ellinghaus F.; Elliot A.A.; Ellis N.; Elmsheuser J.; Elsing M.; Emeliyanov D.; Emerman A.; Enari Y.; Epland M.B.; Erdmann J.; Ereditato A.; Erland P.A.; Errenst M.; Escalier M.; Escobar C.; Estrada Pastor O.; Etzion E.; Evans H.; Evans M.O.; Ezhilov A.; Fabbri F.; Fabbri L.; Fabiani V.; Facini G.; Faisca Rodrigues Pereira R.M.; Fakhrutdinov R.M.; Falciano S.; Falke P.J.; Falke S.; Faltova J.; Fang Y.; Fang Y.; Fanourakis G.; Fanti M.; Faraj M.; Farbin A.; Farilla A.; Farina E.M.; Farooque T.; Farrington S.M.; Farthouat P.; Fassi F.; Fassnacht P.; Fassouliotis D.; Faucci Giannelli M.; Fawcett W.J.; Fayard L.; Fedin O.L.; Fedorko W.; Fehr A.; Feickert M.; Feligioni L.; Fell A.; Feng C.; Feng M.; Fenton M.J.; Fenyuk A.B.; Ferguson S.W.; Ferrando J.; Ferrante A.; Ferrari A.; Ferrari P.; Ferrari R.; Ferreira de Lima D.E.; Ferrer A.; Ferrere D.; Ferretti C.; Fiedler F.; Filipcic A.; Filthaut F.; Finelli K.D.; Fiolhais M.C.N.; Fiorini L.; Fischer F.; Fisher W.C.; Fleck I.; Fleischmann P.; Flick T.; Flierl B.M.; Flores L.; Flores Castillo L.R.; Follega F.M.; Fomin N.; Foo J.H.; Forcolin G.T.; Formica A.; Forster F.A.; Forti A.C.; Fortin E.; Foti M.G.; Fournier D.; Fox H.; Francavilla P.; Francescato S.; Franchini M.; Franchino S.; Francis D.; Franco L.; Franconi L.; Franklin M.; Fray A.N.; Freeman P.M.; Freund B.; Freund W.S.; Freundlich E.M.; Frizzell D.C.; Froidevaux D.; Frost J.A.; Fujimoto M.; Fukunaga C.; Fullana Torregrosa E.; Fusayasu T.; Fuster J.; Gabrielli A.; Gabrielli A.; Gadatsch S.; Gadow P.; Gagliardi G.; Gagnon L.G.; Galhardo B.; Gallardo G.E.; Gallas E.J.; Gallop B.J.; Galster G.; Gamboa Goni R.; Gan K.K.; Ganguly S.; Gao J.; Gao Y.; Gao Y.S.; Garcia C.; GarciaNavarro J.E.; GarciaPascual J.A.; Garcia-Argos C.; Garcia-Sciveres M.; Gardner R.W.; Garelli N.; Gargiulo S.; Garner C.A.; Garonne V.; Gasiorowski S.J.; Gaspar P.; Gaudiello A.; Gaudio G.; Gavrilenko I.L.; Gavrilyuk A.; Gay C.; Gaycken G.; Gazis E.N.; Geanta A.A.; Gee C.M.; Gee C.N.P.; Geisen J.; Geisen M.; Gemme C.; Genest M.H.; Geng C.; Gentile S.; George S.; Geralis T.; Gerlach L.O.; Gessinger-Befurt P.; Gessner G.; Ghasemi S.; Ghasemi Bostanabad M.; Ghneimat M.; Ghosh A.; Ghosh A.; Giacobbe B.; Giagu S.; Giangiacomi N.; Giannetti P.; Giannini A.; Giannini G.; Gibson S.M.; Gignac M.; Gillberg D.; Gilles G.; Gingrich D.M.; Giordani M.P.; Giraud P.F.; Giugliarelli G.; Giugni D.; Giuli F.; Gkaitatzis S.; Gkialas I.; Gkougkousis E.L.; Gkountoumis P.; Gladilin L.K.; Glasman C.; Glatzer J.; Glaysher P.C.F.; Glazov A.; Gledhill G.R.; Gnesi I.; Goblirsch-Kolb M.; Godin D.; Goldfarb S.; Golling T.; Golubkov D.; Gomes A.; Goncalves Gama R.; Goncalo R.; Gonella G.; Gonella L.; Gongadze A.; Gonnella F.; Gonski J.L.; Gonzalez de la Hoz S.; Gonzalez Fernandez S.; Gonzalez Renteria C.; Gonzalez Suarez R.; Gonzalez-Sevilla S.; Gonzalvo Rodriguez G.R.; Goossens L.; Gorasia N.A.; Gorbounov P.A.; Gordon H.A.; Gorini B.; Gorini E.; Gorisek A.; Goshaw A.T.; Gostkin M.I.; Gottardo C.A.; Gouighri M.; Goussiou A.G.; Govender N.; Goy C.; Gozani E.; Grabowska-Bold I.; Graham E.C.; Gramling J.; Gramstad E.; Grancagnolo S.; Grandi M.; Gratchev V.; Gravila P.M.; Gravili F.G.; Gray C.; Gray H.M.; Grefe C.; Gregersen K.; Gregor I.M.; Grenier P.; Grevtsov K.; Grieco C.; Grieser N.A.; Grillo A.A.; Grimm K.; Grinstein S.; Grivaz J.-F.; Groh S.; Gross E.; Grosse-Knetter J.; Grout Z.J.; Grud C.; Grummer A.; Grundy J.C.; Guan L.; Guan W.; Gubbels C.; Guenther J.; Guerguichon A.; Guerrero Rojas J.G.R.; Guescini F.; Guest D.; Gugel R.; Guillemin T.; Guindon S.; Gul U.; Guo J.; Guo W.; Guo Y.; Guo Z.; Gupta R.; Gurbuz S.; Gustavino G.; Guth M.; Gutierrez P.; Gutschow C.; Guyot C.; Gwenlan C.; Gwilliam C.B.; Haas A.; Haber C.; Hadavand H.K.; Hadef A.; Haleem M.; Haley J.; Hall J.J.; Halladjian G.; Hallewell G.D.; Hamacher K.; Hamal P.; Hamano K.; Hamdaoui H.; Hamer M.; Hamity G.N.; Han K.; Han L.; Han S.; Han Y.F.; Hanagaki K.; Hance M.; Handl D.M.; Haney B.; Hank M.D.; Hankache R.; Hansen E.; Hansen J.B.; Hansen J.D.; Hansen M.C.; Hansen P.H.; Hanson E.C.; Hara K.; Harenberg T.; Harkusha S.; Harrison P.F.; Hartman N.M.; Hartmann N.M.; Hasegawa Y.; Hasib A.; Hassani S.; Haug S.; Hauser R.; Havener L.B.; Havranek M.; Hawkes C.M.; Hawkings R.J.; Hayashida S.; Hayden D.; Hayes C.; Hayes R.L.; Hays C.P.; Hays J.M.; Hayward H.S.; Haywood S.J.; He F.; Heath M.P.; Hedberg V.; Heer S.; Heggelund A.L.; Heidegger K.K.; Heidorn W.D.; Heilman J.; Heim S.; Heim T.; Heinemann B.; Heinrich J.J.; Heinrich L.; Hejbal J.; Helary L.; Held A.; Hellesund S.; Helling C.M.; Hellman S.; Helsens C.; Henderson R.C.W.; Heng Y.; Henkelmann L.; Henriques Correia A.M.; Herde H.; Hernandez Jimenez Y.; Herr H.; Herrmann M.G.; Herrmann T.; Herten G.; Hertenberger R.; Hervas L.; Herwig T.C.; Hesketh G.G.; Hessey N.P.; Hibi H.; Higashida A.; Higashino S.; Higon-Rodriguez E.; Hildebrand K.; Hill J.C.; Hill K.K.; Hiller K.H.; Hillier S.J.; Hils M.; Hinchliffe I.; Hinterkeuser F.; Hirose M.; Hirose S.; Hirschbuehl D.; Hiti B.; Hladik O.; Hlaluku D.R.; Hobbs J.; Hod N.; Hodgkinson M.C.; Hoecker A.; Hohn D.; Hohov D.; Holm T.; Holmes T.R.; Holzbock M.; Hommels L.B.A.H.; Hong T.M.; Honig J.C.; Honle A.; Hooberman B.H.; Hopkins W.H.; Horii Y.; Horn P.; Horyn L.A.; Hou S.; Hoummada A.; Howarth J.; Hoya J.; Hrabovsky M.; Hrdinka J.; Hristova I.; Hrivnac J.; Hrynevich A.; Hryn'ova T.; Hsu P.J.; Hsu S.-C.; Hu Q.; Hu S.; Hu Y.F.; Huang D.P.; Huang Y.; Huang Y.; Hubacek Z.; Hubaut F.; Huebner M.; Huegging F.; Huffman T.B.; Huhtinen M.; Hunter R.F.H.; Huo P.; Huseynov N.; Huston J.; Huth J.; Hyneman R.; Hyrych S.; Iacobucci G.; Iakovidis G.; Ibragimov I.; Iconomidou-Fayard L.; Iengo P.; Ignazzi R.; Igonkina O.; Iguchi R.; Iizawa T.; Ikegami Y.; Ikeno M.; Iliadis D.; Ilic N.; Iltzsche F.; Introzzi G.; Iodice M.; Iordanidou K.; Ippolito V.; Isacson M.F.; Ishino M.; Islam W.; Issever C.; Istin S.; Ito F.; Iturbe Ponce J.M.; Iuppa R.; Ivina A.; Iwasaki H.; Izen J.M.; Izzo V.; Jacka P.; Jackson P.; Jacobs R.M.; Jaeger B.P.; Jain V.; Jakel G.; Jakobi K.B.; Jakobs K.; Jakoubek T.; Jamieson J.; Janas K.W.; Jansky R.; Janus M.; Janus P.A.; Jarlskog G.; Jaspan A.E.; Javadov N.; Javurek T.; Javurkova M.; Jeanneau F.; Jeanty L.; Jejelava J.; Jelinskas A.; Jenni P.; Jeong N.; Jezequel S.; Ji H.; Jia J.; Jiang H.; Jiang Y.; Jiang Z.; Jiggins S.; Jimenez Morales F.A.; Jimenez Pena J.; Jin S.; Jinaru A.; Jinnouchi O.; Jivan H.; Johansson P.; Johns K.A.; Johnson C.A.; Jones R.W.L.; Jones S.D.; Jones S.; Jones T.J.; Jongmanns J.; Jorge P.M.; Jovicevic J.; Ju X.; Junggeburth J.J.; Juste Rozas A.; Kaczmarska A.; Kado M.; Kagan H.; Kagan M.; Kahn A.; Kahra C.; Kaji T.; Kajomovitz E.; Kalderon C.W.; Kaluza A.; Kamenshchikov A.; Kaneda M.; Kang N.J.; Kang S.; Kano Y.; Kanzaki J.; Kaplan L.S.; Kar D.; Karava K.; Kareem M.J.; Karkanias I.; Karpov S.N.; Karpova Z.M.; Kartvelishvili V.; Karyukhin A.N.; Kastanas A.; Kato C.; Katzy J.; Kawade K.; Kawagoe K.; Kawaguchi T.; Kawamoto T.; Kawamura G.; Kay E.F.; Kazakos S.; Kazanin V.F.; Keeler R.; Kehoe R.; Keller J.S.; Kellermann E.; Kelsey D.; Kempster J.J.; Kendrick J.; Kennedy K.E.; Kepka O.; Kersten S.; Kersevan B.P.; Ketabchi Haghighat S.; Khader M.; Khalil-Zada F.; Khandoga M.; Khanov A.; Kharlamov A.G.; Kharlamova T.; Khoda E.E.; Khodinov A.; Khoo T.J.; Khramov E.; Khubua J.; Kido S.; Kiehn M.; Kilby C.R.; Kim E.; Kim Y.K.; Kimura N.; Kind O.M.; King B.T.; Kirchmeier D.; Kirk J.; Kiryunin A.E.; Kishimoto T.; Kisliuk D.P.; Kitali V.; Kitsaki C.; Kivernyk O.; Klapdor-Kleingrothaus T.; Klassen M.; Klein C.; Klein M.H.; Klein M.; Klein U.; Kleinknecht K.; Klimek P.; Klimentov A.; Klingl T.; Klioutchnikova T.; Klitzner F.F.; Kluit P.; Kluth S.; Kneringer E.; Knoops E.B.F.G.; Knue A.; Kobayashi D.; Kobayashi T.; Kobel M.; Kocian M.; Kodama T.; Kodys P.; Koeck D.M.; Koenig P.T.; Koffas T.; Kohler N.M.; Kolb M.; Koletsou I.; Komarek T.; Kondo T.; Koneke K.; Kong A.X.Y.; Konig A.C.; Kono T.; Konstantinides V.; Konstantinidis N.; Konya B.; Kopeliansky R.; Koperny S.; Korcyl K.; Kordas K.; Koren G.; Korn A.; Korolkov I.; Korolkova E.V.; Korotkova N.; Kortner O.; Kortner S.; Kostyukhin V.V.; Kotsokechagia A.; Kotwal A.; Koulouris A.; Kourkoumeli-Charalampidi A.; Kourkoumelis C.; Kourlitis E.; Kouskoura V.; Kowalewska A.B.; Kowalewski R.; Kozanecki W.; Kozhin A.S.; Kramarenko V.A.; Kramberger G.; Krasnopevtsev D.; Krasny M.W.; Krasznahorkay A.; Krauss D.; Kremer J.A.; Kretzschmar J.; Krieger P.; Krieter F.; Krishnan A.; Krizka K.; Kroeninger K.; Kroha H.; Kroll J.; Kroll J.; Krowpman K.S.; Kruchonak U.; Kruger H.; Krumnack N.; Kruse M.C.; Krzysiak J.A.; Kubota T.; Kuchinskaia O.; Kuday S.; Kuechler J.T.; Kuehn S.; Kugel A.; Kuhl T.; Kukhtin V.; Kulchitsky Y.; Kuleshov S.; Kulinich Y.P.; Kuna M.; Kunigo T.; Kupco A.; Kupfer T.; Kuprash O.; Kurashige H.; Kurchaninov L.L.; Kurochkin Y.A.; Kurova A.; Kurth M.G.; Kuwertz E.S.; Kuze M.; Kvam A.K.; Kvita J.; Kwan T.; La Rotonda L.; La Ruffa F.; Lacasta C.; Lacava F.; Lack D.P.J.; Lacker H.; Lacour D.; Ladygin E.; Lafaye R.; Laforge B.; Lagouri T.; Lai S.; Lakomiec I.K.; Lammers S.; Lampl W.; Lampoudis C.; Lancon E.; Landgraf U.; Landon M.P.J.; Lanfermann M.C.; Lang V.S.; Lange J.C.; Langenberg R.J.; Lankford A.J.; Lanni F.; Lantzsch K.; Lanza A.; Lapertosa A.; Laplace S.; Laporte J.F.; Lari T.; Lasagni Manghi F.; Lassnig M.; Lau T.S.; Laudrain A.; Laurier A.; Lavorgna M.; Lawlor S.D.; Lazzaroni M.; Le B.; Le Guirriec E.; Lebedev A.; Le Blanc M.; Le Compte T.; Ledroit-Guillon F.; Lee A.C.A.; Lee C.A.; Lee G.R.; Lee L.; Lee S.C.; Lee S.; Lefebvre B.; Lefebvre H.P.; Lefebvre M.; Leggett C.; Lehmann K.; Lehmann N.; Lehmann Miotto G.; Leight W.A.; Leisos A.; Leite M.A.L.; Leitgeb C.E.; Leitner R.; Lellouch D.; Leney K.J.C.; Lenz T.; Leone R.; Leone S.; Leonidopoulos C.; Leopold A.; Leroy C.; Les R.; Lester C.G.; Levchenko M.; Leveque J.; Levin D.; Levinson L.J.; Lewis D.J.; Li B.; Li B.; Li C.-Q.; Li F.; Li H.; Li H.; Li J.; Li K.; Li L.; Li M.; Li Q.; Li Q.Y.; Li S.; Li X.; Li Y.; Li Z.; Li Z.; Liang Z.; Liberatore M.; Liberti B.; Liblong A.; Lie K.; Lim S.; Lin C.Y.; Lin K.; Lin T.H.; Linck R.A.; Lindley R.E.; Lindon J.H.; Lionti A.L.; Lipeles E.; Lipniacka A.; Liss T.M.; Lister A.; Little J.D.; Liu B.; Liu B.L.; Liu H.B.; Liu H.; Liu J.B.; Liu J.K.K.; Liu K.; Liu M.; Liu P.; Liu Y.; Liu Y.; Liu Y.L.; Liu Y.W.; Livan M.; Lleres A.; Llorente Merino J.; Lloyd S.L.; Lo C.Y.; Lobodzinska E.M.; Loch P.; Loffredo S.; Lohse T.; Lohwasser K.; Lokajicek M.; Long J.D.; Long R.E.; Longo L.; Looper K.A.; Lopez Paz I.; Lopez Solis A.; Lorenz J.; Lorenzo Martinez N.; Lory A.M.; Losel P.J.; Losle A.; Lou X.; Lou X.; Lounis A.; Love J.; Love P.A.; Lozano Bahilo J.J.; Lu M.; Lu Y.J.; Lubatti H.J.; Luci C.; Lucotte A.; Luedtke C.; Luehring F.; Luise I.; Luminari L.; Lund-Jensen B.; Lutz M.S.; Lynn D.; Lyons H.; Lysak R.; Lytken E.; Lyu F.; Lyubushkin V.; Lyubushkina T.; Ma H.; Ma L.L.; Ma Y.; Maccarrone G.; Macchiolo A.; Macdonald C.M.; Machado Miguens J.; Madaffari D.; Madar R.; Mader W.F.; Madugoda Ralalage Don M.
    corecore