Košík

  Odznačiť vybrané:   0
  1. SYS0312881
    LBL
      
    -----nam--22--------450-
    005
      
    20220909131314.6
    010
      
    $a 978-989-53614-3-4
    011
      
    $a 2184-044X
    011
      
    $a 2184-1489
    017
    70
    $2 DOI
    100
      
    $a 20210707d2022łłłłm y-slo-03 ----ba
    101
    0-
    $a eng
    102
      
    $a PT
    200
    1-
    $a Education and new developments 2022 $f ed. Mafalda Carmo $h Vol. 1
    205
      
    $a 1. vyd.
    210
      
    $a Lisabon $c inScience Press $d 2022
    215
      
    $a 583 p.
    608
      
    $3 umb_un_auth*0038655 $a zborníky konferencií
    702
    -1
    $3 umb_un_auth*0294442 $a Carmo $b Mafalda $4 340
    710
    11
    $3 umb_un_auth*0294441 $a International Conference on Education and New Developments (END 2022) $b medzinárodná konferencia $e Madeira $f 18.-20.06.2022
    801
    -0
    $a SK $b BB301 $g AACR2 $9 unimarc sk
    856
      
    $u http://end-educationconference.org/wp-content/uploads/2022/07/Front-Matter_Education-and-New-Developments_2022_Vol_I.pdf $a Link na zdrojový dokument
  2. SYS0237028
    LBL
      
    ---naa--22--------450-
    005
      
    20240607102058.0
    014
      
    $a 000376000000003 $2 CCC
    014
      
    $a 000376000000003 $2 WOS CC. SCIE
    014
      
    $a 2-s2.0-84971324901 $2 SCOPUS
    017
    70
    $a 10.1103/PhysRevC.93.054906 $2 DOI
    100
      
    $a 20161206 2016 m y slo 03 ba
    101
    0-
    $a eng
    102
      
    $a US
    200
    1-
    $a Formation of deuterons by coalescence $e consequences for deuteron number fluctuations $f Zuzana Fecková ... [et al.]
    330
      
    $a Two scenarios for cluster production have long been discussed in the literature: (i) direct emission of the clusters from a (grand-canonical) thermal source or (ii) subsequent formation of the clusters by coalescence of single nucleons. While both approaches have been successfully applied in the past it has not yet been clarified which of the two mechanisms dominates the cluster production. We propose to use recently developed event-by-event techniques to study particle multiplicity fluctuations on nuclear clusters and employ this analysis to the deuteron number fluctuations to disentangle the two production mechanisms. We argue that for a grand-canonical cluster formation, the cluster fluctuations will follow Poisson distribution, while for the coalescence scenario, the fluctuations will strongly deviate from the Poisson expectation. We estimate the effect to be 10% for the variance and up to a factor of 5 for the kurtosis of the deuteron number multiplicity distribution. Our prediction can be tested in the beam energy scan program at the BNL Relativistic Heavy Ion Collider as well as experiments at the GSI Facility for Antiproton and Ion Research and the Nuclotron-based Ion Collider Facility.
    463
    -1
    $1 001 umb_un_cat*0295134 $1 011 $a 2469-9985 $1 011 $a 2469-9993 $1 200 1 $a Physical Review C $v Vol. 93, no. 5 (2016), pp. 1-5 $1 210 $a Maryland $c American Physical Society $d 2016
    606
    0-
    $3 umb_un_auth*0000019 $a fyzika $X physics
    606
    0-
    $3 umb_un_auth*0052852 $a molekulárna dynamika
    606
    0-
    $3 umb_un_auth*0048201 $a entropia
    606
    0-
    $3 umb_un_auth*0229989 $a molecular dynamics
    615
      
    $n 53 $a Fyzika
    675
      
    $a 53
    700
    -1
    $3 umb_un_auth*0247103 $a Fecková $b Zuzana $f 1988- $9 30 $4 070
    701
    -1
    $3 umb_un_auth*0247104 $a Steinheimer $b Jan $4 070 $9 20
    701
    -1
    $3 umb_un_auth*0120276 $a Tomášik $b Boris $p UMBFP06 $4 070 $9 30 $f 1972- $T Katedra fyziky
    701
    -1
    $3 umb_un_auth*0159931 $a Bleicher $b Marcus $4 070 $9 20
    801
    -0
    $a SK $b BB301 $g AACR2 $9 unimarc sk
    T85
      
    $x existuji fulltexy
  3. SYS0294848
    LBL
      
    -----naa--22--------450-
    005
      
    20250110095915.7
    014
      
    $a 000515587500001 $2 WOS CC. SCIE
    014
      
    $a 2-s2.0-85078501023 $2 SCOPUS
    017
    70
    $a 10.1007/s10100-019-00669-2 $2 DOI
    035
      
    $a biblio/308739 $2 CREPC2
    100
      
    $a 20210424d2021 m y slo 03 ba
    101
    0-
    $a eng
    102
      
    $a DE
    200
    1-
    $a Projections of pension benefits in supplementary pension saving scheme in Slovakia $f Michal Mešťan, Ivan Králik ... [et al.]
    330
      
    $a New Institutions for Occupational Retirement Provision Directive, effective since 2019, lays down new information requirements for all pension providers across the EU. The directive requires providers to supply their members and savers with a Pension Benefit Statement on a regular basis. The Pension Benefit Statement should inter alia contain the projections of future pension benefits that can reasonably be expected at the moment of retirement. However, the directive does not provide any further technical specification on the methods and processes of pension benefit projections. Our motivation is to contribute to this issue and present possible approaches on pension benefit projections. The complexity of pension benefit projections requires consideration of not only expected returns on various asset categories, but also the correlation between other variables such as expected life-cycle income or decisions on the default saving strategy. Our results provide indications on the possible solutions and compare the projected pension benefits using three simulation methods with back-tested results using real supplementary pension funds operating in Slovakia.
    463
    -1
    $1 001 umb_un_cat*0297134 $1 011 $a 1435-246X $1 011 $a 1613-9178 $1 200 1 $a Central European Journal of Operations Research $v Vol. 29, no. 2 (2021), pp. 687-712 $1 210 $a Heidelberg $c Springer Nature Switzerland AG $d 2021
    606
    0-
    $3 umb_un_auth*0268936 $a DC pension schemes
    606
    0-
    $3 umb_un_auth*0270003 $a IORP II Directive
    606
    0-
    $3 umb_un_auth*0270002 $a Pension Benefit Statement
    606
    0-
    $3 umb_un_auth*0100526 $a retirements
    608
      
    $3 umb_un_auth*0273282 $a články $X journal articles
    700
    -1
    $3 umb_un_auth*0232064 $a Mešťan $b Michal $f 1991- $p UMBEF04 $4 070 $9 40 $T Katedra financií a účtovníctva
    701
    -1
    $3 umb_un_auth*0041263 $a Králik $b Ivan $f 1992- $p UMBEF15 $9 35 $4 070 $T Katedra verejnej ekonomiky a regionálneho rozvoja
    701
    -1
    $3 umb_un_auth*0242772 $a Žofaj $b Matej $f 1992- $p UMBEF01 $9 10 $4 070 $q 1 $T Katedra cestovného ruchu
    701
    -1
    $3 umb_un_auth*0219366 $a Karkošiaková $b Nikola $f 1990- $p UMBEF15 $9 10 $4 070 $q 2 $T Katedra verejnej ekonomiky a regionálneho rozvoja
    701
    -1
    $3 umb_un_auth*0286908 $a Kabašinskas $b Audrius $4 070 $9 5
    801
      
    $a SK $b BB301 $g AACR2 $9 unimarc sk
    856
      
    $u https://link.springer.com/article/10.1007/s10100-019-00669-2 $a Link na plný text
    T85
      
    $x existuji fulltexy
  4.  

    SYS0036418
    LBL
      
    00097nx^^^22000613^^450
    005
      
    20210331125250.5
    250
      
    $a flóra
    450
      
    $7 ba $5 z $a flora $8 eng
  5. SYS0243228
    LBL
      
    00542nx^^^22001813^^45
    005
      
    20170814111731.5
    250
      
    $a solvent shift
    450
      
    $7 ba $5 z

  Tieto stránky využívajú súbory cookies, ktoré uľahčujú ich prezeranie. Ďalšie informácie o tom ako používame cookies.