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Enhanced Polarisation Control and Extreme Electric Fields = Advances in Terahertz Spectroscopy Applied to Anisotropic Materials and Magnetic Phase Transitions /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Enhanced Polarisation Control and Extreme Electric Fields/ by Connor Devyn William Mosley.
Reminder of title:	Advances in Terahertz Spectroscopy Applied to Anisotropic Materials and Magnetic Phase Transitions /
Author:	Mosley, Connor Devyn William.
Description:	XV, 115 p. 44 illus., 43 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Phase Transitions and Multiphase Systems. -
Online resource:	https://doi.org/10.1007/978-3-030-66902-7
ISBN:	9783030669027

Enhanced Polarisation Control and Extreme Electric Fields = Advances in Terahertz Spectroscopy Applied to Anisotropic Materials and Magnetic Phase Transitions /
Mosley, Connor Devyn William.

Enhanced Polarisation Control and Extreme Electric FieldsAdvances in Terahertz Spectroscopy Applied to Anisotropic Materials and Magnetic Phase Transitions /[electronic resource] :by Connor Devyn William Mosley. - 1st ed. 2021. - XV, 115 p. 44 illus., 43 illus. in color.online resource. - Springer Theses, Recognizing Outstanding Ph.D. Research,2190-5061. - Springer Theses, Recognizing Outstanding Ph.D. Research,.

Introduction -- Terahertz Time-Domain Spectroscopy -- Rotatable-Polarisation Terahertz Time-Domain Spectroscopy of Anisotropic Media -- Scalable Interdigitated Photoconductive Emitters for the Electrical Modulation of Terahertz Beams With Arbitrary Linear Polarisation -- Tracking Disorder Broadening and Hysteresis in First-Order Phase Transitions via the Electromagnon Response in Improper Ferroelectrics.

This thesis reports advances in terahertz time-domain spectroscopy, relating to the development of new techniques and components that enhance the experimentalist’s control over the terahertz polarisation state produced by photoconductive emitters. It describes how utilising the dynamic magnetoelectric response at THz frequencies, in the form of electromagnons, can probe material properties at a transition between two magnetically ordered phases. Additionally, preliminary investigations into the properties of materials exposed to extreme terahertz optical electric fields are reported. The work presented in this thesis may have immediate impacts on the study of anisotropic media at THz frequencies, with photoconductive emitters and detectors being the most commonly used components for commercially available terahertz spectroscopy and imaging systems, and by providing a new way to study the nature of magnetic phase transitions in multiferroics. In the longer term the increased understanding of multiferroics yielded by ultrafast spectroscopic methods, including terahertz time-domain spectroscopy, may help develop new magnetoelectric and multiferroic materials for applications such as spintronics.

ISBN: 9783030669027

Standard No.: 10.1007/978-3-030-66902-7doiSubjects--Topical Terms:

782552
Phase Transitions and Multiphase Systems.

LC Class. No.: TA1671-1707

Dewey Class. No.: 621.36

Enhanced Polarisation Control and Extreme Electric Fields = Advances in Terahertz Spectroscopy Applied to Anisotropic Materials and Magnetic Phase Transitions /
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520 $a This thesis reports advances in terahertz time-domain spectroscopy, relating to the development of new techniques and components that enhance the experimentalist’s control over the terahertz polarisation state produced by photoconductive emitters. It describes how utilising the dynamic magnetoelectric response at THz frequencies, in the form of electromagnons, can probe material properties at a transition between two magnetically ordered phases. Additionally, preliminary investigations into the properties of materials exposed to extreme terahertz optical electric fields are reported. The work presented in this thesis may have immediate impacts on the study of anisotropic media at THz frequencies, with photoconductive emitters and detectors being the most commonly used components for commercially available terahertz spectroscopy and imaging systems, and by providing a new way to study the nature of magnetic phase transitions in multiferroics. In the longer term the increased understanding of multiferroics yielded by ultrafast spectroscopic methods, including terahertz time-domain spectroscopy, may help develop new magnetoelectric and multiferroic materials for applications such as spintronics.
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