Abstract: An apparatus including an optical resonator, and a method of using same. The optical limiter includes an optically absorbent material. The optical resonator supports a plurality of resonant transmission peaks at resonant frequencies defined by the cavity length. The optically absorbent material exhibits a saturable absorption response at a fundamental absorption peak located spectrally at a fundamental absorption peak frequency of the plurality of resonant transmission peaks. The optically absorbent material includes an absorptivity sufficient for strong cavity coupling, such that the fundamental absorption peak splits into a first upper vibration polariton transmission peak and a second lower polariton transmission peak separated by a Rabi splitting. The Rabi splitting is proportional to a square root of the absorptivity. The absorptivity varies with optical excitation of the optically absorbent material.

Abstract: Disclosed herein is a cyclic peptide polymer. R1, R2, and R3 are organic groups. Each R4 is a covalent bond, methylene, ethylene, n-propylene, or n-butylene. Each X is —NH—, —O—, or —O—CO—. The values m and n are nonnegative integers having a sum of at least 1. The value p is an integer greater than 1. The cyclic peptide polymer may be made by providing a first cyclic peptide monomer having a protecting group on the X group, covalently binding the —CO—OH group of the first cyclic peptide monomer to a solid support having a carboxylic acid-reactive group, converting the protecting group to —XH, reacting the —XH group with the —CO—OH group of an additional cyclic peptide monomer, optionally repeating the converting and reacting steps with further additional cyclic peptide monomers, and cleaving the cyclic peptide polymer from the solid support.

Abstract: Disclosed herein is a cyclic peptide polymer. R1, R2, and R3 are organic groups. Each R4 is a covalent bond, methylene, ethylene, n-propylene, or n-butylene. Each X is —NH—, —O—, or —O—CO—. The values m and n are nonnegative integers having a sum of at least 1. The value p is an integer greater than 1. The cyclic peptide polymer may be made by providing a first cyclic peptide monomer having a protecting group on the X group, covalently binding the —CO—OH group of the first cyclic peptide monomer to a solid support having a carboxylic acid-reactive group, converting the protecting group to —XH, reacting the —XH group with the —CO—OH group of an additional cyclic peptide monomer, optionally repeating the converting and reacting steps with further additional cyclic peptide monomers, and cleaving the cyclic peptide polymer from the solid support.

Abstract: An apparatus including an optical resonator, and a method of using same. The optical limiter includes an optically absorbent material. The optical resonator supports a plurality of resonant transmission peaks at resonant frequencies defined by the cavity length. The optically absorbent material exhibits a saturable absorption response at a fundamental absorption peak located spectrally at a fundamental absorption peak frequency of the plurality of resonant transmission peaks. The optically absorbent material includes an absorptivity sufficient for strong cavity coupling, such that the fundamental absorption peak splits into a first upper vibration polariton transmission peak and a second lower polariton transmission peak separated by a Rabi splitting. The Rabi splitting is proportional to a square root of the absorptivity. The absorptivity varies with optical excitation of the optically absorbent material.

Abstract: A method of making a surface-active glass as regenerative anti-fouling material comprising mixing Na2O and B2O3, creating a surface-active glass with a water-soluble glass matrix, wherein the surface-active glass comprises a sodium borate glass consisting of 25 mol % Na2O and 75 mol % B2O3 or wherein the surface-active glass comprises a sodium aluminoborate glass consisting of 10-30 mol % Al2O3, 10-30 mol % Na2O and 70-40 mol % B2O3.

Abstract: A surface-active glass as regenerative anti-fouling material comprising a surface-active glass with a water-soluble glass matrix.