Scientometric indicators for Brazilian research on High Energy Physics , 1983-2013

This article presents an analysis of Brazilian research on High Energy Physics (HEP) indexed by Web of Science (WoS) from 1983 to 2013. Scientometric indicators for output, collaboration and impact were used to characterize the field under study. The results show that the Brazilian articles account for 3% of total HEP research worldwide and that the sharp rise in the scientific activity between 2009 and 2013 may have resulted from the consolidation of graduate programs, the increase of the funding and of the international collaboration as well as the implementation of the Rede Nacional de Física de Altas Energias (RENAFAE) in 2008. Our results also indicate that the collaboration patterns in terms of the authors, the institutions and the countries confirm the presence of Brazil in multinational Big Science experiments, which may also explain the prevalence of foreign citing documents (all types), emphasizing the international prestige and visibility of the output of Brazilian scientists. We concluded that the scientometric indicators suggested scientific maturity in the Brazilian HEP community due to its long history of experimental research.


INTRODUCTION
High Energy Physics (HEP) is considered one of the most internationalized and collaborative scientific knowledge areas (Mele et al. 2006).Since the 1950s, large experiments with particle accelerators have involved scientists from several countries.
The small number of laboratories, operational costs of research and interdisciplinarity are factors that strengthen ties between nations.The prevalence of multiauthor publications on HEP is the result of a strong culture of communication and scientific exchange.
This collective effort generates information on particle interaction and the formation of the universe, in addition to knowledge transferred to areas such as Medicine (the development of CT scans and radiation therapy for cancer diagnosis and treatment), Information & Communication Technology (creation of the World Wide Web), GONZALO R. ALVAREZ et al.Engineering (improving the quality of thermal insulation for electrical equipment), the Environment (renewable energy production) (Santoro andNovaes 2003, Lefevre 2007).
In 2008, Brazil began to work towards becoming an Associate Member of the European Organization for Nuclear Research (CERN).Despite not being formally affiliated with the institution, collaboration by Brazilian HEP is significant and long-standing.In terms of number of researchers, students and engineers, Brazil has the second largest participation among non-member countries, second only to Canada.Concomitantly, Brazilian researchers in the field participate in major international projects in partnership with National Laboratories such as the Fermi National Accelerator Laboratory (Fermilab) and Brookhaven National Laboratory (BNL) in the United States, and Pierre Auger in Argentina (Coordernação de Aperfeiçoamento de Pessoal de Nível Superior/ CAPES 2013).
It is known that joining CERN alone is not enough to ensure a quality leap in HEP research in Brazil; significant investment in infrastructure, the creation of new laboratories and training of human resources are also needed (Lépine-Szily et al. 2011).It should be noted that no specific scientometric study on Brazilian HEP was found in the existing literature.Therefore, this article identifies the peculiarities of research in the field, national and international co-participation, and research visibility through citations.Moreover, it can be used as a source of information for decisionmaking in relation to granting new funding and graduate scholarships.
This article presents an analysis of the characteristics of the scientific output, the collaboration and impact of Brazilian HEP.The analysis is based on articles published in journals indexed under the Web of Science Category (WC) 'Physics, Particles &Fields' between 1983 and2013.

OVERVIEW OF HEP RESEARCH IN BRAZIL
Research on high-energy cosmic rays in Brazilian HEP and collaboration between scientists have been systematic since the 1930s, especially with the creation of the first universities in São Paulo and Rio de Janeiro and the arrival of foreign physicists, including the Italian Gleb Wataghin and the German Bernard Gross (Schwartzman 2001, Motoyama 2004).The participation of César Lattes in the discovery of meson p in 1947 and the creation of the physics research center, Centro Brasileiro de Pesquisas Físicas (CBPF), in 1949, contributed to the consolidation of HEP as a thematic area of research.The establishment of the two governamental grant agencies, Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) and CAPES, in 1951, boosted the development of national science and of Physics in particular.The creation of federal and state universities in the 1960s (and more intensely in subsequent decades) propelled the development of human resources.The high education system consolidated and in the second half of the 1960s, graduate programs were established in the country (Sociedade Brasileira de Física/SBPF 1987, Schwartzman 2001, Vieira and Videira 2007, Shellard 2011).The first program with an HEP research line was offered by the CBPF in 1962 (Sistema Nacional de Pós-Graduação/ SNPG 2015).The most recent assessment of graduate programs conducted by CAPES revealed the rapid development of teaching in the area.Among the 32 graduate HEP programs graded in the Avaliação Trienal, 11 were regarded as having an international profile and deemed outstanding, receiving the highest grades (CAPES 2013).
The participation in the large collaborations in HEP requires specific planning related not only to the visits to the international laboratories but also to the selection of experiments in which the scientists from Brazil can participate.Then, in 2008, the Ministério de Ciência e Tecnologia (MCT) set up the Rede Nacional de Física de Altas Energias (RENAFAE).Its main objectives are to study particles and their interactions, coordinate activities related to major international collaborations and devise a project for the development of instrumentation and software (CBPF 2011, Shellard 2011).In the scientific community, the creation of RENAFAE is believed to be responsible for a major boost in HEP research in Brazil, given that the number of publications and research groups registered in the CNPq directory have since increased considerably.While the rise in the number of graduate programs has been less pronounced, consolidation and expansion of programs with HEP research lines are thought to have occurred.According to the CBPF (2011), RENAFAE has played a key role in the articulation of Brazilian collaborations in international projects, including experiments conducted at CERN and the Pierre Auger Observatory.

SCIENTOMETRIC STUDIES ON HEP
Previous studies by national and international researchers analyzed different aspects of HEP scientific output, collaborations and impact.Although HEP is the focus of analysis in foreign research, studies in Brazil provide an indirect overview of the field, such as the investigations by Vanz (2009), who observed the formation of large groups (teamwork) in the field due to the high cost of research and the complexity of experiments; and Duarte (2008), who stated that scientific and technological development in HEP should be based on international collaboration and Brazilian participation in CERN.
A number of international studies also stand out.Braun et al. (1992) compared the patterns of international co-authorship in the subfields of physics, underscoring, in HEP, the role of multinational laboratories in building partnerships.These studies highlight the similarities and differences between HEP and other collaborative associations.For instance, Kretschmer and Rousseau (2001) found that, in fields such as HEP, Lotka's law is annulled by intense collaboration.Also, Chompalov et al. (2002) reported 53 multiinstitutional collaborations in Physics, observing that HEP is more participatory and consensual in terms of decision-making.Complementary to Chompalov et al. (2002), Newman (2001aNewman ( , b, c, 2004) ) examined the structure of scientific collaboration networks in different fields and noted that HEP exhibits a high level of clustering.Krause et al. (2007) studied the geographical distribution of authors who published articles in major HEP journals in 2005-2006 and found that the United States and CERN Members States are the most productive and collaborative countries.Lehmann et al. (2003) demonstrated the homogeneous of the HEP citing network consisting of scientific publications indexed in SPIRES database.Likewise, Collazo-Reyes and Luna-Morales (2002) analyzed the scientific output and growth of Mexican HEP between 1971 and 2000, underscoring the maturity of the scientific community at the local level.Bonilla-Calero (2009) found high rates the scientific output, international collaboration and impact of Spanish HEP from articles indexed in the Science Citation Index (SCI) and arXiv between 2000 and 2005.Mele et al. (2006) considered the HEP preprints submitted in 2005 in the arXiv repository and observed that the scientific output later published in peer review journals is highly concentrated in six titles.Corresponding to Mele et al. (2006), Aman (2013) described the scholarly communication system using articles from core HEP journals indexed by Scopus, emphasizing that only three of the six publications centralizes 50% of HEP literature.Finally, Collazo-Reyes et al. (2004)

MATERIALS AND METHODS
In December 2014, data were collected and Brazilian HEP articles for the 1983-2013 period were downloaded from the SCI of the multidisciplinary Web of Science (WoS) database.The Advanced Search option was used, with the use of boolean operators (OR, AND).The field labels CU=Country (Brazil OR Brazil) and WC=Web Category of Science (Physics, Particles & Fields) were used in the search strategy to demarcate articles published by Brazilian HEP scientists and to delimit the subject category of journals indexed by WoS.After importing 6,350 bibliographic records, the information was organized into a single file (.txt).We used the List of Authorities from the Grupo de Pesquisa Comunicação Científica of the Universidade Federal do Rio Grande do Sul (UFRGS) and the CNPq Plataforma Lattes to standardize the names of authors, institutions and countries.For impact analysis, data from 41,152 citing documents (all types) were imported using the WoS tool Create Citation Report.
The variables analyzed were Published Year (PY), Web of Science Category (WC), Source (SO), Author (AU), Author Address (C1) and Total Times Cited Count (Z9).General and specific scientometric indicators were used to characterize Brazilian HEP.Output Indicators: Total Publication (TP), Growth Rate (GR).Collaboration Indicators: International Collaboration (ICO), National Collaboration (NCO), Not Collaboration (NotC), Average Author Per Publication (AAPP), Average Institution Per Publication (AIPP), Average Country Per Publication (ACOPP).Impact Indicators: Publication Cited (PC), Total Citation (TC), H Index, Maximum Citation (MaxC), Average Citation Per Publication (ACPP).International co-authorship is the percentage of articles with authors from more than one country.With regard to data processing, software programs Bibexcel (descriptive analysis), Pajek (collaboration networks), Philcarto (thematic mapping), SPSS 18.0 (multivariate analysis) and Microsoft Excel 2007 were used.Salton's Cosine was employed as similarity measure to examine the strength of the ties between Brazil and coauthoring countries, using the formula proposed by Luukkonen et al. (1993).The intensity of inter-country collaboration was classified according to criteria adopted by Leta et al. (2006): strong relationship (Salton's Cosine ≥ 2.5); medium relationship (Salton's Cosine ≥ 1 and <2.5); weak relationship (Salton's Cosine <1).
The Person correlation measurement was used to analyze if the increase in citations in Brazilian HEP total publication partially resulted from the growth of international collaborations: where x i and y i are the measures of total number of citations and total number of publications in international collaborations in each year and <x> and <y> are the average number along the period.
The thirty-one-year period studied  was aimed at ensuring greater reliability of scientometric indicators by using an extensive time period to analyze the evolution of scientific production in Brazilian HEP.In line with the strategy used by other researchers, such as Kretschmer and Rousseau (2001), Vanz (2009) and Bonilla-Calero (2009), this study employed total counts, that is, an entire article or citation for each author, institution or country.

CHARACTERIZATION OF BRAZILIAN HEP RESEARCH
The Brazilian HEP contribution to the global output indexed in the WoS WC (Advanced Search) Physics, Particles & Fields for the 1983-2013 period was analyzed and compared with other countries.Brazilian HEP articles accounted for 3% of the total investigated.The Brazilian participation in HEP is more representative when compared to the participation of Brazil in the total production indexed in SCI (1.72%).The most productive country in HEP is the United States (29.78%), followed by Germany (13.60%), Italy (11.77%), the United Kingdom (9.10%) and Russia (8.96%).Brazil occupies the fourteenth position in terms of participation.In order to identify if this position can potentially change in the next years, the growth of Brazilian and international publications was examined.Fig. 1 shows the Brazilian growth (right vertical axis) with the total global production (left vertical axis).While the global production shows an inverse parabolic growth (R 2 = 0.979), the Brazilian production increases much faster by an exponential growth (R 2 = 0.9131).
Our results show that the average publications growth in this period in Brazil, 14.27%, is larger than that of world publications, 3.78%.Since we analyze a more recent period of time, the average recorded here is higher than the 10.7% reported by Almeida and Guimarães (2013) for Brazilian scientific output from 1980 to 2010 period, the 6.4% found by Bonilla-Calero (2009) for Spanish Particle Physics output indexed in the SCI between 2000 and 2005, and the 12.5% observed by Vanz (2009) for Brazilian Physics articles published between 2004 and 2006.This recent exceptional growth, between 2009 and 2013, coincides with the establishment of RENAFAE.It is important to note that the increase in the number of national journals indexed in WoS from 2007 to 2008 and the resulting rise in Brazilian scientific production (Leta 2012, Vargas et al. 2014) did not affect HEP, since a negative growth rate was observed in 2008 (-18.91%).The analysis of the journals of publication presented later confirms the independence of the Brazilian HEP for the national communication vehicles.The creation of new CNPq research groups, the consolidation and expansion of graduate programs, greater financial resources and the key coordinating role of RENAFAE for Brazilian collaboration in international experiments may have been determining factors for the increase in the volume of articles in these years and, consequently, development in the field.
The Table I illustrates the year-on-year output, collaboration and impact data.The table shows for each year: the total number of publications (TP), the percentual growth rate between the number of publications in one year compared with the number in the previous year (GR), the percentual of publications in international collaboration (ICO), the percentual of publications in national collaboration (NCO), the percentual of publications without collaboration (NotC), the percentual of publications that received any citation (PC), the total number of citations (TC), the average number of citations per publication (ACPP).
A significant difference was observed in the number of published articles in the study period.In 1983, WoS indexed journals published only 25 articles by Brazilian researchers.In 2013, output reached its peak at 577 publications.A significant increase in scientific activity of Brazilian HEP was seen over the period and can be associated to the presence and growth of the collaboration in the Brazilian HEP articles.In the case of TP and ICO r = 0.97 and TP and NCO r = 0,91, which suggests strong correlation.
Brazilian HEP scientific output indexed in WoS from 1983 to 2013 amounts to 6,350 articles, accounting for an average of 205 publications per year.The set of Brazilian HEP articles studied received 78,812 citations from 41,152 documents (all types), representing an average of 12.41 citations per article.In terms of visibility, significant internationalization of research in the field seems to have contributed to the high rate of articles with at least one citation (87.65%).According to Lehmann GONZALO R. ALVAREZ et al.It is interesting to notice that the most cited article (484 citations), 'Properties and performance of the prototype instrument for the Pierre Auger Observatory', it was not for an experiment at CERN, but for building up an instrument for the detection and study of cosmic rays in a large apparatus built in Argentina.The article was published in 2004 by the Auger Collaboration in the journal Nucl.Instrum.Meth. A. This particular project was very important to Brazil because due to the location of the instruments, the technical support largely came from Brazilian companies.
Then we analyzed if the increase in citations in Brazilian HEP total publication partially resulted from the growth of international collaborations.Fig. 2 shows the number of articles in international collaboration (ICO) at the left vertical axis and the total number of citations (TC) at the right vertical axis from 1983 up to 2013.Although the number of citations decreased in 2012-2013 because articles published in this period have not yet been incorporated by the scientific community and referenced in further studies (Meadows 1999), the expansion of International Collaboration contributed in some measure to the increased visibility of research by Brazilian scientists.In the Fig. 2 both the total number of citations and the number of articles in international collaborations are moderately correlated.Systems that show low correlation have r close to zero while systems in which the correlation is high the value is close to 1.In the case of TC and ICO r=0.62 what suggests moderate correlation.
Brazilian HEP articles were analyzed by theme using the WC field in order to determine the distribution of publications per subject for the journals used and relate this to patterns of collaboration and citations received.The Table II shows for each theme in the high energy physics the total number of publications, the percentage of the total number of publications, the average number of authors per publication, the average number of institutions per publication, the average number of countries per publication, the total number of citations, the average number of citations per publication in each specified theme of HEP.It  should be noted that the same document can be classified into more than one category, and as such, the sum of identified occurrences does not match the total number of articles in scientific production.
Despite the multidisciplinarity and complexity of Brazilian HEP research, since Brazilian articles were also indexed by journals for other fields, the distribution publications per WC in the period covered was low compared with the totality of subject categories of WoS.This indicator shows that the field studied often concentrates research results within a limited number of specialized journals.The concentration of the publications in the theme of Astronomy & Astrophysics and Nuclear Physics in Brazilian publications stems not only from their significant influence on HEP in the historical context, but also from the interest in subjects such as dark matter, neutrinos, The Big Bang, astroparticles, heavy-ion collisions, reactions on stars, and decays.The highest contribution and impact rates for the period were observed in the most productive WC and in technical areas strongly linked to detection methods and control of nuclear reactions (Nuclear Science & Technology), detectors and accelerators (Instruments & Instrumentation) as well as measurements of quantum numbers of particles (Spectroscopy).With only one article, the WCs Materials Science, Multidisciplinary; Physics, Applied and Physics, Condensed Matter showed low representativeness in the set of articles examined.As such, these three categories showed low AAPP, AIPP, ACOPP and ACPP.
Another aspect is the selection of the journals in which the publications appear.The Table III illustrates for each different journal (the home country of the journal is also specified) the total number of publication, the percentage of the number of publications, the average number of authors per publication, the average number of institutions per publication, the average number of countries per publication, the total number of citations, the H index, and the average number of citations per publication.The 6,350 Brazilian HEP articles indexed in WoS for the 1983-2013 period are published in 35 international English-language journals.The fact that the first PhDs in Physics and Astronomy were trained abroad is one of the reasons for the preference for English-language journals as a communication channel for research results (CAPES 2013).Among the 15 foreign journals that were most used by researchers, the titles published in Europe (Germany, England, the Netherlands, Italy) and in the USA, responsible for publishing 85.20% of the articles (Table III), stood out.The absence of articles in journals published in Brazil confirms the strong internationalization of the field under study.In addition, Table III shows collaboration and impact indicators generated in order to establish the co-authorship and citation patterns of the publication sources preferred by Brazilian HEP scientists.
In terms of productivity, the importance of the most traditional HEP journals, such as Physical Review D, Journal of High Energy Physics, European Physical Journal C and Nuclear Physics B, was noted.As reported by Bonilla-Calero (2009) and Aman (2013), our results show a high concentration of publications in a few journals with a high Impact Factor in the field of Particle Physics, with 70% of articles published in six journals.This is lower than 83% reported by Mele et al. (2006) for the international HEP scientific output in 2005.The arrangement of articles by quartile revealed that the three most productive journals fall under Q1.The level of excellence achieved by Brazilian HEP is supported by the number of top-rated graduate programs according to the 2013 CAPES Avaliação Trienal.The indicators in Table III show highly varied collaboration and impact patterns among different journals.The highest rates recorded were for the journals J. High Energy Phys. (AAPP, AIPP), Eur.Phys.J. C (ACOPP) and Astropart.Phys.(ACPP).Our results also confirms the correlation between H index and citations (Hirsch 2005) as proposed by Hirsch.
Even though HEP is built in collaborations, the individuals play a relevant role.The Table IV shows the list of more productive Brazilian authors on HEP including their total number The productivity and impact of the group of scientists were estimated using the H Index. Maria Elena Pol and Marcia Begalli have the highest H index (39), indicating the visibility and relevance of the scientific production of these researchers in HEP.In terms of individual productivity, the good performance of Brazilian HEP is related to the active participation in CNPq research groups and international collaboration with CERN in Switzerland as well as Fermilab and Brookhaven in the United States.As a co-author in the most cited HEP article (484 citations), Hélio Nogima (UERJ) had the highest MaxC, while researchers Marcia Begalli (UERJ) and Bernard Marechal (UFRJ) had the highest ACPP for the period.Since the HEP is a very cooperative field the analysis of the geographic distribution of the publications is relevant to understand how much the field percolated in the country.The Table V shows the total number of publications, the percentage of the number of publications, the total number of citations, the average number of citations per publication for the different states in Brazil.The table indicates that the federal and state institutions (predominantly universities) lead the ranking of the most productive institutions in Brazilian HEP.The leading role of institutions from the states of São Paulo and Rio de Janeiro is evident, accounting for almost 76% of the articles produced.Leta and Cruz (2003) explain that the quantitative differential of graduate students, scientists and organizations involved in the activity and a greater research tradition are among the main factors responsible for the leading position of these states in Brazilian science.On the other hand, the regional concentration of technical and scientific production is a peculiarity of peripheral countries where the decentralization of science is very costly.Although Southeastern states were most cited, the highest ACPP in the period under In the previous subsection the year by year temporal evolution of the number of publications (Table I), of the distribution in different sub fields (Table II) and of the distribution in different journals (Table III) were presented.Since changes occur in a much larger scale than the year by year an analysis over the decades was performed.(2001a, b, 2004), the 24.8 reported by Krause et al. (2007) for HEP publications in SPIRES between 1995-1999and 2005-2006,  Another interesting effect is the correlation between productivity and connectivity.The number of citations is directly correlated with the number of authors and with the number of countries involved in the article (Jones et al. 2008, Ale Ebrahim et al. 2013).This also applies for the HEP in Brazil.The five most productive institutions in Brazilian HEP  The international collaborative network for Brazilian HEP displays strength as to its structure.Absolute indicators show that the United States (6.10%) is Brazil's main partner in terms of coauthoring for the 1983-2013 period, followed by Russia (4.56%), and CERN Member States with a long history in experimental research: France (4.34%), Germany (4.32%), UK (4.19%), and Italy (4.18%).The low presence of the USA in HEP articles implies a decline in Brazil's scientific dependence and the consolidation of ties with other partners, mostly in Europe.
Relative indicators show that neighboring Colombia (20.6) is Brazil's main co-author (Table VIII).Geographical proximity encourages the establishment of partnerships (Katz 1994), especially in a country as Brazil, where geographical distance is a decisive factor in collaboration (Sidone et al. 2017).In the field of HEP, the analysis of collaborative strength indicates decentralization and diversification for Brazil's collaborations, with a strong presence of East European countries  such as the Czech Republic (16.7),Serbia (16.1),Georgia (14.8) and Belarus (13.8).

ORIGIN OF CITING DOCUMENTS
Results of the impact of HEP research were presented and discussed in previous analyses, and citations were characterized in relation to time evolution (Table I), the fields (Table II), the publishing journals (Table III), the author productivity (Table IV) and the institution productivity (Table V, Table VI).Within the 41,152 citing documents (all types) analyzed, 39,555 (96.11%) contained information in the C1 field in WoS (Table IX).The number of international citing articles for Brazilian HEP production was 34,721 (87.78%).Citations from documents (all types) produced by authors affiliated with foreign institutions, including studies in collaboration with Brazil, are considered international.On the other hand, national citations correspond to publications produced exclusively by researchers affiliated with Brazilian institutions.Among the international documents (all types), 30,327 (76.67%) originate from documents published by foreign authors, while 4,394 (11.11%) are from documents produced through foreign collaboration with Brazil.In addition, national HEP scientists accounted for 4,834 (12.22%) citing documents (all types) published in the 1983-2015 period.The high number of researchers affiliated with foreign institutions in citing documents (all types) underscores the internationalization of research and low self-citation in the field under study.
Fig. 3 shows the global influence of Brazilian HEP research.Brazil's main partners (and the most productive ones in High Energy Physics) between 1983 and 2013 also lead the ranking of citing countries.The United States tops the list of 112 citing nations, with 10.25% of the documents (all types) published, followed by CERN Member States such as Germany (6.14%), Italy (4.99%), and UK (4.45%).

CONCLUSIONS
The contribution of Brazilian HEP to global output indexed in the WoS WC Physics, Particles & Fields from 1983-2013 accounts for 3% of the total investigated.The national average annual growth rate for publications is higher than the global average, but more inconsistent, with a sharp increase in domestic production between 2009 and 2013.The creation of new CNPq groups, the consolidation of graduate programs, the establishment of RENAFAE, and increased funding and international collaborations may have been key factors in this growth in these years, as well as development in the field.Astronomy & Astrophysics and Physics, Nuclear are the most representative fields in Brazilian articles.This suggests that having the infrastructure of graduate programs and regular funding through RENAFAE might be the ingredient for the growth.
The most productive authors are affiliated with institutions in the Rio de Janeiro-São Paulo axis and belong to the experimental subfield.The

Figure 1 -
Figure 1 -Growth dynamics of Brazilian and international HEP publications, 1983-2013.The right vertical axis is for the TP Brazil and the left vertical axis for the TP World.

Figure 2 -
Figure 2 -International collaboration and citation patterns of Brazilian HEP, 1983-2013.The left vertical axis is for the international collaboration (ICO), while the right vertical axis is for the total number of citations (TC).

TABLE I Annual evolution of Brazilian HEP scientific activity, 1983-2013.
Within the 6,350 articles analyzed, 5,886 (92.70%) contained information in the C1 field in WoS.The 464 articles with no information in field C1 correspond to the period 1983-1997.Therefore, TP has a higher value than the sum of ICO, NCO and NotC in that interval.
TP total publication, GR growth rate, ICO international collaboration, NCO national collaboration, NotC not collaboration, PC publication cited, TC total citation, ACPP average citation per publication.a

TABLE I (
continuation) GONZALO R. ALVAREZ et al.

TABLE II Thematic areas in the scientific output of Brazilian HEP, 1983-2013.
TP total number of publication, percentage of the publications, AAPP average number of authors per publication, AIPP average number of institutions per publication, ACOPP average number of countries per publication, TC total number of citations, ACPP average number of citations per publication in each specified theme of HEP.An Acad Bras Cienc (2017) 89 (3 Suppl.)

TABLE III Fifteen main journals for Brazilian HEP scientific output, 1983-2013.
TP total number of publication, percentage of the number of publications, AAPP average number of authors per publication, AIPP average number of institutions per publication, ACOPP average number of countries per publication, TC total number of citations, H index, ACPP average number of citations per publication in each different journal with the specified home country of the journal.

TABLE IV Twenty most productive Brazilian HEP authors, 1983-2013.
TableVIIshows the evolution per decade of the 6,350 articles, as well as the average number of authors, institutions and countries per article and the rate of collaboration in Brazilian HEP.This table shows that the strong presence of Brazilian researchers in international collaborations between 2010 and 2013 justified the increase in the averages in this last period and explains the continuous increase in the average number of authors per article.Comparatively, the average of 155.89 authors for the 1983-2013 period is higher than the 8.96 presented by Newman

TABLE V Distribution per state of Brazilian HEP scientific output, 1983-2013.
TP total number of publication, percentage of number of publications, TC total number of citations, ACPP average number of citations per publication for the different states in Brazil.The map is in the right panel.

TABLE VI Twenty most productive institutions in Brazilian HEP, 1983-2013.
TP total number of publication, percentage of the number of publications, TC total number of citations, H index, MaxC maximum number of citations, ACPP average number of citations per publication for the different institutions.