, as well as the Ministry of Economics of Latvia, whose representatives observed the competition and gave Recognition Diplomas to 3 teams chosen by them. Link to the students' video on how the vehicles are made: bit.ly/Saule_2018_video
of the lost information resource in accordance with its actual market value; 5.3.7.2. to reimburse the material value of a piece of technical equipment lost or damaged by the users according to the quote in the UL inventory records; 5.3.8. upon completion or interruption of studies/work at the UL, to settle all obligations with the Library. If such obligations are not settled, the UL will collect the losses incurred in accordance with the existing laws and regulations; 5.3.9. not to leave the user’s personal information resources, portable computers and other personal effects unattended; 5.3.10. to ascertain the reasons for setting off of the alarm system with the Library or security staff, should the alarm system be set off upon the user’s entrance into or exit from the Library premises; 5.3.11. to observe the workplace safety and fire safety regulations and promptly leave the Library premises if the fire alarm is set off; 5.3.12. not to entrust the UL student/staff identification card
above are emitting the blue, green and red light, cumulatively producing white light. Luminescence of all these powders can be excited with ultraviolet light from the Hg emission lines at 184 nm and 254 nm thus providing an application of the powder mixture for luminescent lamps. The proportions of the powder mixture are currently worked out. The second direction of the investigations is devoted to elaboration of composite materials consisting of the powders above and material of the matrixes in which the powders are incorporated. It was found that the PMMA (polymetilmetacrilat) is the best material for incorporation of AlN powders. PMMA material itself is luminescent and under its excitation with Hg emission lines mentioned above a blue emission is observed. This blue light is additional and together with the emission of the mixture of AlN powders is forming white light. Presently the optimal proportions of the components forming the composite material are being worked out. Activities
to develop new technologies and sensors for environmental sustainability applications. The group will consist of 3 young Latvian scientists, 3 doctoral students, 1 foreign young scientist, 1 repatriated Latvian scientist and 3 experienced Latvian scientists. Cooperation will take place within the framework of two national research centers. The project is aimed at extending the opportunities of young people involved in scientific activities, which requires young people to understand the objectives set up by them and seek the opportunities to achieve them. As part of the project, it is planned to involve young, promising scientists in the priority scientific fields set out by the country: „Energy and Environment” and „Innovative materials and Technologies”. This means strengthening and expanding these areas in the future. Scientific objective of the project: I) Develop laser technology for processing CdTe and CdZnTe crystals, which will reduce the manufacturing costs of radiation detectors
, including an overall refinement of the educational programs, strengthening of the research and development activities towards higher technology readiness levels, establishment of an innovation system and Open Access Laboratory, as well as ISO 9001 certification. CAMART 2 second stage expected results: With assistance from KTH andAcreo, ISSP UL will develop scientific programmes by prioritising research directions in which ISSP UL can excel and efficiently support relevant industries by increasing the Technology Readiness level (TRL) in well-defined areas. The main quality indicators for scientific impact are the total number of publications and number of student theses. Special attention will be paid for three indicators - number of international co-publications, number of citations, and qualitymeasured by source normalized impact per paper (SNIP) of journals. CAMART 2 second stage tasks at ISSP UL: Increase the level of research commercialization; Facilitate cooperation between
Publicēts unir indeksēts WoS/Scopus: Fernández González, M. J., Semjonovs, D., Narica, I., Strautmane, D., Ozola, S. (2017). Predicting a fast-track maritime career: characteristics of successful officers during teenage years. Problems of Education in the 21st Century, 75(6), 550-567. oaji.net/articles/2017/457-1513710449.pdf Raksts ir indeksēts Scopus. Ir publicēts unbūs indeksēts WoS/Scopus: M.J. Fernández González. (2017). Undergraduate students’ strategies for negotiating emerging performer and teacher identities. First Published September 11, 2017. Raksts ir publicēts žurnālā “Psychology of Music” (raksts būs indeksēts Scopus/WoS) URL journals.sagepub.com/doi/abs/10.1177/0305735617726594 Ir iesniegts žurnālā/grāmatā, kas ir indeksēts WoS/Scopus: 2017. gada jūnijs - Enhancing the Skills Set for Increasing Youth Employability in Latvia. Sadaļa ir iesniegta recenzēšanai un publicēšanai grāmatā “Socio-Economic Perspectives on Vocational
, Technologies and Research in Education (Ed. Daniela, L.), UK: Cambridge Scholars Publishing, Newcastle upon Tyne, 229-244.pp. 362. ISBN (10): 1-5275-0622-3, ISBN (13): 978-1-5275-0622-0. URL: www.cambridgescholars.com/innovations-technologies-and-research-in-education Nīmante, D. (2018). Sadarbības veicināšana klasē [Promotion of cooperation in clasroom]// 816.sēj. Pedagoģija un skolotāju izglītība [Pedagogy an Teacher Education] (Red. Kaļķe, B., Ķestere, I.) LU raksti [Acta Universitatis Latviensis]. Rīga: LU akadēmiskais apgāds, 207-218 lpp. 218. ISSN 1407-2157. URL: doi.org/10.22364/ped.luraksti.816 Laganovska, E. (2018). Information and Communication Technologies in Speech and Language Therapy. 5th Congress of Baltic States SLTs "Alternatīvā un augmentatīvā komunikācija: vairāk nekā vārdi ..." Book of Abstract. bit.ly/2PwNVju Iesniegie publicēšanai: Laganovska, E. (2018). Teacher’s Challenges and Solutions: Student with Learning Disabilities into Regular
From January to April 2024, the annual scientific conference will be held for the 82nd time at the University of Latvia (UL). The UL conference has become an integral part of scientific life, which carries with it almost a century of traditions. Traditionally, the work of the conference is organized in sectional meetings in 4 blocks of science branches (Natural sciences, Humanities, Medical and health sciences, and Social sciences), 12 priority research topics and interdisciplinary. Within the framework of the 82nd international scientific conference of UL, the plenary session "BIZNESS. MANAGEMENT. ECONOMY.” and 11 sectional meetings. Plenary and sectional meetings will be held in person or online. The plenary session will be held on February 22, 2024 at 10:30 a.m. in auditorium 225, Aspazijas boulevard 5, Riga. It will be led by the vice-dean of LU BVEF sciences, professor Inna Romanova. All interested parties are invited to participate in the conference - students, teaching staff
of modulation spectroscopy, spectroscopic ellipsometry and time-resolved spectroscopy. Latvian side is working on material spectral characterization using study of photoluminescence together with its excitation spectra and absorption spectra within a wide temperature range between 8 K and 300 K. The results achieved. ( The Latvian side) Al x Ga x-1 N The features of an exciton luminescence, which is sensitive to the material band gap energy E g were studied for the thin layers of Al x Ga x-1 N with different x values not exceeding 0,1 within a temperature range from 8 K up to 300 K. The samples were excited with the 263 nm laser light. The following results are obtained. For Al x Ga 1-x N samples with small Al content not exceeding 0,1 an increase of x results in a blue shift of the exciton luminescence band’s position caused by the band gap enlargement. This relevance is observable for different x at all fixed temperature points in 8 K - 300 K range. For Al x Ga 1-x N an increase