Insight in NLO polymer material behavior from langevin dynamic modeling of chromophore poling

M. Rutkis; A. Jurgis

doi:10.1080/10584587.2011.570635

Insight in NLO polymer material behavior from langevin dynamic modeling of chromophore poling

M. Rutkis^*
, A. Jurgis

^*Šī darba korespondējošais autors

Spektroskopijas laboratorija, Cietvielu fizikas institūts

Zinātniskās darbības rezultāts: Devums žurnālam › Konferences zinātniskais raksts › koleģiāli recenzēts

3 Atsauces (Scopus)

Kopsavilkums

Calculation of chromophore polar order, i.e. the polarization of nonlinear optically (NLO) active polymers poled by external field, is challenging. One possible solution is to reproduce the orientation polarization of chromophores under external field using Langevin dynamics (LD) molecular modeling. The present work investigates the influence of chromophore dipole moment, density and field extent on NLO efficiency and polarization/relaxation dynamics. Results of simulations convince us, that the method is applicable for modeling real NLO polymers. In the spotlight of this investigation we would like to describe a NLO polymer as a ferrofluid where chromophores are active particles or electrets.

Oriģinālvaloda	Angļu
Lapas (no-līdz)	53-65
Lapu skaits	13
Žurnāls	Integrated Ferroelectrics
Sējums	123
Izdevuma numurs	1
DOIs	https://doi.org/10.1080/10584587.2011.570635
Publikācijas statuss	Publicēts - 2011
Pasākums	Annual International Conference "Functional Materials and Nanotechnologies", FM and NT-2010 - Riga, Latvija Ilgums: 16 marts 2010 → 19 marts 2010

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title = "Insight in NLO polymer material behavior from langevin dynamic modeling of chromophore poling",

abstract = "Calculation of chromophore polar order, i.e. the polarization of nonlinear optically (NLO) active polymers poled by external field, is challenging. One possible solution is to reproduce the orientation polarization of chromophores under external field using Langevin dynamics (LD) molecular modeling. The present work investigates the influence of chromophore dipole moment, density and field extent on NLO efficiency and polarization/relaxation dynamics. Results of simulations convince us, that the method is applicable for modeling real NLO polymers. In the spotlight of this investigation we would like to describe a NLO polymer as a ferrofluid where chromophores are active particles or electrets.",

keywords = "Langevin dynamics modeling, NLO polymers, orientation polarization, relaxation dynamics",

author = "M. Rutkis and A. Jurgis",

year = "2011",

doi = "10.1080/10584587.2011.570635",

language = "English",

volume = "123",

pages = "53--65",

journal = "Integrated Ferroelectrics",

issn = "1058-4587",

publisher = "Taylor and Francis Ltd.",

number = "1",

note = "Annual International Conference {"}Functional Materials and Nanotechnologies{"}, FM and NT-2010 ; Conference date: 16-03-2010 Through 19-03-2010",

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TY - JOUR

T1 - Insight in NLO polymer material behavior from langevin dynamic modeling of chromophore poling

AU - Rutkis, M.

AU - Jurgis, A.

PY - 2011

Y1 - 2011

N2 - Calculation of chromophore polar order, i.e. the polarization of nonlinear optically (NLO) active polymers poled by external field, is challenging. One possible solution is to reproduce the orientation polarization of chromophores under external field using Langevin dynamics (LD) molecular modeling. The present work investigates the influence of chromophore dipole moment, density and field extent on NLO efficiency and polarization/relaxation dynamics. Results of simulations convince us, that the method is applicable for modeling real NLO polymers. In the spotlight of this investigation we would like to describe a NLO polymer as a ferrofluid where chromophores are active particles or electrets.

AB - Calculation of chromophore polar order, i.e. the polarization of nonlinear optically (NLO) active polymers poled by external field, is challenging. One possible solution is to reproduce the orientation polarization of chromophores under external field using Langevin dynamics (LD) molecular modeling. The present work investigates the influence of chromophore dipole moment, density and field extent on NLO efficiency and polarization/relaxation dynamics. Results of simulations convince us, that the method is applicable for modeling real NLO polymers. In the spotlight of this investigation we would like to describe a NLO polymer as a ferrofluid where chromophores are active particles or electrets.

KW - Langevin dynamics modeling

KW - NLO polymers

KW - orientation polarization

KW - relaxation dynamics

UR - https://www.scopus.com/pages/publications/79961202537

UR - http://www.tandfonline.com/doi/abs/10.1080/10584587.2011.570635

U2 - 10.1080/10584587.2011.570635

DO - 10.1080/10584587.2011.570635

M3 - Conference article

AN - SCOPUS:79961202537

SN - 1058-4587

VL - 123

SP - 53

EP - 65

JO - Integrated Ferroelectrics

JF - Integrated Ferroelectrics

IS - 1

T2 - Annual International Conference "Functional Materials and Nanotechnologies", FM and NT-2010

Y2 - 16 March 2010 through 19 March 2010

ER -

Insight in NLO polymer material behavior from langevin dynamic modeling of chromophore poling

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