The Singular Optics of Random Light: a 2D vectorial investigation

Lorenzo De Angelis

doi:10.4233/uuid:25dc497c-b218-4d6a-9796-001e9d569975

The Singular Optics of Random Light: a 2D vectorial investigation

Lorenzo De Angelis

QN/Kuipers Lab

Research output: Thesis › Dissertation (TU Delft)

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Abstract

In this thesis, we explore the physics of optical singularities. We investigate them in light waves propagating randomly in a planar nanophotonic chip. With a custom-built nearfield microscope, we map the electromagnetic field resulting from the interference of these light waves. Our technique gives access to the full vectorial and complex nature of such an electromagnetic field, with subwavelength resolution. The resulting information allows us to precisely pinpoint and characterize the multitude of singularities that arise in the random light field. We detect phase singularities in the Cartesian components of light’s vector field, i.e., points where the phase of the field components is undetermined and it circulates in a vortical flow around them (Part II).Moreover, we identify polarization singularities, e.g., C points: locations where the vector of light’s electric field describes a perfect circle in time (Part III)...

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Delft University of Technology
Supervisors/Advisors	Kuipers, L., Supervisor Groeblacher, S., Advisor
Award date	20 Dec 2018
Print ISBNs	978-94-6186-995-1
DOIs	https://doi.org/10.4233/uuid:25dc497c-b218-4d6a-9796-001e9d569975
Publication status	Published - 20 Dec 2018

Keywords

light
phase
polarization
singularities
vortices
randomness
waves
chaos
correlation
2D

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title = "The Singular Optics of Random Light: a 2D vectorial investigation",

abstract = "In this thesis, we explore the physics of optical singularities. We investigate them in light waves propagating randomly in a planar nanophotonic chip. With a custom-built nearfield microscope, we map the electromagnetic field resulting from the interference of these light waves. Our technique gives access to the full vectorial and complex nature of such an electromagnetic field, with subwavelength resolution. The resulting information allows us to precisely pinpoint and characterize the multitude of singularities that arise in the random light field. We detect phase singularities in the Cartesian components of light{\textquoteright}s vector field, i.e., points where the phase of the field components is undetermined and it circulates in a vortical flow around them (Part II).Moreover, we identify polarization singularities, e.g., C points: locations where the vector of light{\textquoteright}s electric field describes a perfect circle in time (Part III)... ",

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author = "{De Angelis}, Lorenzo",

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doi = "10.4233/uuid:25dc497c-b218-4d6a-9796-001e9d569975",

language = "English",

isbn = "978-94-6186-995-1",

type = "Dissertation (TU Delft)",

school = "Delft University of Technology",

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TY - THES

T1 - The Singular Optics of Random Light

T2 - a 2D vectorial investigation

AU - De Angelis, Lorenzo

PY - 2018/12/20

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N2 - In this thesis, we explore the physics of optical singularities. We investigate them in light waves propagating randomly in a planar nanophotonic chip. With a custom-built nearfield microscope, we map the electromagnetic field resulting from the interference of these light waves. Our technique gives access to the full vectorial and complex nature of such an electromagnetic field, with subwavelength resolution. The resulting information allows us to precisely pinpoint and characterize the multitude of singularities that arise in the random light field. We detect phase singularities in the Cartesian components of light’s vector field, i.e., points where the phase of the field components is undetermined and it circulates in a vortical flow around them (Part II).Moreover, we identify polarization singularities, e.g., C points: locations where the vector of light’s electric field describes a perfect circle in time (Part III)...

AB - In this thesis, we explore the physics of optical singularities. We investigate them in light waves propagating randomly in a planar nanophotonic chip. With a custom-built nearfield microscope, we map the electromagnetic field resulting from the interference of these light waves. Our technique gives access to the full vectorial and complex nature of such an electromagnetic field, with subwavelength resolution. The resulting information allows us to precisely pinpoint and characterize the multitude of singularities that arise in the random light field. We detect phase singularities in the Cartesian components of light’s vector field, i.e., points where the phase of the field components is undetermined and it circulates in a vortical flow around them (Part II).Moreover, we identify polarization singularities, e.g., C points: locations where the vector of light’s electric field describes a perfect circle in time (Part III)...

KW - light

KW - phase

KW - polarization

KW - singularities

KW - vortices

KW - randomness

KW - waves

KW - chaos

KW - correlation

KW - 2D

U2 - 10.4233/uuid:25dc497c-b218-4d6a-9796-001e9d569975

DO - 10.4233/uuid:25dc497c-b218-4d6a-9796-001e9d569975

M3 - Dissertation (TU Delft)

SN - 978-94-6186-995-1

ER -

The Singular Optics of Random Light: a 2D vectorial investigation

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Keywords

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