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1. PT-symmetry-enabled stable modes in a multicore fiber

   https://doi.org/10.1103/PhysRevResearch.6.033025  

   Gratcheva, Tamara; Joglekar, Yogesh N; Gopalakrishnan, Jay (July 2024, Physical Review Research)

   Open systems with balanced gain and loss, described by parity-time reversal (PT) symmetric Hamiltonians have been deeply explored over the past decade. Most explorations are limited to finite discrete models (in real or reciprocal spaces) or continuum problems in one dimension. As a result, these models do not leverage the complexity and variability of two-dimensional continuum problems on a compact support. Here, we investigate eigenvalues of the Schrödinger equation on a disk with zero boundary condition, in the presence of constant, PT-symmetric, gain-loss potential that is confined to two mirror-symmetric disks. We find a rich variety of exceptional points, re-entrant PT-symmetric phases, and a nonmonotonic dependence of the PT-symmetry breaking threshold on the system parameters. By comparing results of two model variations, we show that this simple model of a multicore fiber supports propagating modes in the presence of gain and loss. 

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2. Non-reciprocal parity-time symmetry breaking based on magneto-optical and gain/loss double ring resonators

   https://doi.org/10.1364/OME.450821  

   Kawaguchi, Yuma; Alù, Andrea; Khanikaev, Alexander_B (March 2022, Optical Materials Express)

   In this paper, we explore the operation of a nonreciprocal non-Hermitian system consisting of a lossy magneto-optical ring resonator coupled to another ring resonator with gain and loss, and we demonstrate that such a system can exhibit non-reciprocity-based broken parity-time (PT) symmetry and supports one-way exceptional points. The nonreciprocal PT-phase transition is analyzed with the use of both analytical tools based on coupled-mode theory and two-dimensional finite element method simulations. Our calculations show that the response of the system strongly depends on the regime of operation – broken or preserved PT-symmetry. This response is leveraged to show that the system can operate as an optical isolator or a one-way laser with functionality tuned by adjusting loss/gain in the second ring resonator. The proposed system can thus be promising for device applications such as magnetically or even optically switchable non-reciprocal devices and one-way micro-ring lasers. 

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3. Lasing with multimode guided waves with exceptional degeneracy

   https://doi.org/10.1117/12.2634283  

   Mealy, Tarek; Herrero Parareda, Albert; Furman, Nathaniel; Nikzamir, Alireza; Capolino, Filippo (October 2022, Proceedings Volume PC12196, Active Photonic Platforms 2022; PC121961M (2022))

   Subramania, Ganapathi S.; Foteinopoulou, Stavroula (Ed.)

   We will discuss two kinds of exceptional points of degeneracy in waveguides and their respective application in lasers. Such exceptional points occur in waveguides with balanced loss and gain (e.g., PT symmetry), and in waveguides without loss and gain (e.g., periodic Si waveguides). Waveguides with such exceptional points have a strong degeneracy of their wavenumbers and polarization states that enables specific wave physics, only found in these degenerate systems. We will discuss advantages and disadvantages of both concepts to conceive laser regimes, related to high power, high spectral purity, high efficiency, etc, and show some realistic designs involving Si ridge waveguides. 

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4. Superdirective leaky radiation from a PT-synthetic metachannel

   https://doi.org/10.1364/OE.419775  

   Hajizadegan, Mehdi; Zhu, Liang; Chen, Pai-Yen (April 2021, Optics Express)

   Spectral singularities appearing in parity-time (PT)-symmetric non-Hermitian optical systems have aroused a growing interest due to their new exhilarating applications, such as bifurcation effects at exceptional points and the coexistence of coherent perfect absorber and laser (so-called CPAL point). We introduce here how the concept of CPAL action provoked inPT-symmetric metasurfaces can be translated into practical implementation of a low-loss zero/low-index open channel supporting a nearly undamped fast-wave propagation. Such aPT-synthetic metachannel shows the capability to produce a high-directivity leaky radiation, with a tunable beam angle that depends on the gain-loss parameter. The proposed structure may enable new kinds of super-directivity antennas, as well as many applications that demand extreme dielectric properties, such as epsilon-near-zero (ENZ). 

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5. Non-Hermitian Floquet-free analytically solvable time-dependent systems [Invited]

   https://doi.org/10.1364/OME.483188  

   Ghaemi-Dizicheh, Hamed; Ramezani, Hamidreza (February 2023, Optical Materials Express)

   The non-Hermitian models, which are symmetric under parity (P) and time-reversal (T) operators, are the cornerstone for the fabrication of new ultra-sensitive optoelectronic devices. However, providing the gain in such systems usually demands precise control of nonlinear processes, limiting their application. In this paper, to bypass this obstacle, we introduce a class of time-dependent non-Hermitian Hamiltonians (not necessarily Floquet) that can describe a two-level system with temporally modulated on-site potential and couplings. We show that implementing an appropriate non-Unitary gauge transformation converts the original system to an effective one with a balanced gain and loss. This will allow us to derive the evolution of states analytically. Our proposed class of Hamiltonians can be employed in different platforms such as electronic circuits, acoustics, and photonics to design structures with hiddenPT-symmetry potentially without imaginary onsite amplification and absorption mechanism to obtain an exceptional point. 

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