2014
DOI: 10.1117/12.2062965
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Formal analysis of electromagnetic optics

Abstract: Optical systems are increasingly being used in safety-critical applications. Due to the complexity and sensitivity of optical systems, their verification raises many challenges for engineers. Traditionally, the analysis of such systems has been carried out by paper-and-pencil based proofs and numerical computations. However, these techniques cannot provide accurate results due to the risk of human error and inherent approximations of numerical algorithms. In order to overcome these limitations, we propose to u… Show more

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Cited by 3 publications
(3 citation statements)
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“…Afshar et al [5] developed a formal support for the complex vector analysis using HOL Light and used it to formally verify the law of reflection for the planar waves. Later, the authors used the formalization of complex vectors to formalize the notions of electromagnetic optics [51], which is further used for performing the formal analysis of the resonant cavity enhanced photonic devices.…”
Section: Verification Of Physical Componentsmentioning
confidence: 99%
“…Afshar et al [5] developed a formal support for the complex vector analysis using HOL Light and used it to formally verify the law of reflection for the planar waves. Later, the authors used the formalization of complex vectors to formalize the notions of electromagnetic optics [51], which is further used for performing the formal analysis of the resonant cavity enhanced photonic devices.…”
Section: Verification Of Physical Componentsmentioning
confidence: 99%
“…The main scope of this project includes the higher-order logic (HOL) [Har09a] formalization of different theories of optics which provides the basis to conduct more accurate analysis than traditional paper-and-pencil based proofs [KL66,NKST98,Moo01], numerical simulation [reZ15, SXS + 11, LAS15] and computer algebra systems (CAS) [Opt15]. So far, the formalization of ray optics [SAT13b,SAT13a], electromagnetic optics [KAHT14] and quantum optics [MT14] has been implemented in the HOL light [Har09b] proof assistant. Recently, an extension of process calculus has been reported for the verification of linear optical quantum circuits [FAGP13].…”
Section: Introductionmentioning
confidence: 99%
“…This allowed the formal verification of some interesting and safety-critical optical systems such as optical resonators [19], laser resonator [13] and optical quantum flip gate [18]. In the sequel, we explore automation and presentation issues of these projects.…”
Section: Formal Opticsmentioning
confidence: 99%