Opti Core

[Gauthier Zitnik]

Thestory is simple. Christmas lighting enthusiasts wanted better C7 and C9 Christmas lights with better color, less hot spots, and more durability. They wanted LED bulbs that could withstand the weathering, be usable for multiple holiday seasons, and still look amazing. So Wintergreen Lighting created OptiCore LED bulbs using the latest SMD LED technology combined with a remarkable polycarbonate lens to make stunning C7 and C9 lights for Christmas, holidays, and events.

OptiCore LED C7 and C9 Christmas light bulbs are the perfect choice for outlining rooflines, pathways, and landscape contours. These bulbs were built to look great even in harsh weather conditions, they'll last through many seasons of use, and they produce vivid light color that catches the eye even from a distance. Hang large C9 Opticore LED bulbs from your roof and outline driveways, walkways, and garden paths with smaller C7 LED bulbs.

OptiCore smooth opaque bulbs produce amazingly saturated color from base to tip for the vintage classic holiday bulb look. If you love your traditional painted incandescent bulbs, but want to make the switch to more energy efficient and long lasting LEDs, this is the bulb for you!

*Shipping outside the continental 48 United States and over-sized items requiring truck shipping will incur additional shipping fees. Excludes Giant Everest trees and commercial decorations. Discount is off product's original list price.

The CityVu and TimberVu series utilize a sealant-injected double corner key construction for maximum strength in the corner joinery and frame. This design assures you your windows will provide superior performance while offering a flexibility in configurations to meet your architectural style.

Windows and doors with OptiCore technology are tested to achieve an FGIA (previously AAMA) certified AW architectural rating based on both the windows maximum design size and gateway test size. This means that no matter the size needs of your project, your windows will

Outside noise from traffic and neighbors can affect your daily comfort levels and even your sleep patterns. OptiCore technology is one of the easiest ways to reduce or eliminate this outside noise pollution.

Quaker windows are designed and manufactured to make installation easier. Our windows arrive with an integral miter cut continuous nail fin built into the frame, which surrounds the whole unit. You do not have to worry about open gaps around the window, or uneven fins. Quaker also offers a variety of receptor, subsill and panning options for more intricate installations.

Tork Premium Bath Tissue Roll with OptiCore features patented two-part core technology and offers a unique combination of capacity, waste reduction, and quality. This premium tissue is designed for those customers who demand the maximum in strength, brightness and softness. This tissue is ideal for office buildings, hotels and restaurants.

Many parameters impact the design of a single core panel, such as geometrical fit, blade weight, resin uptake and manufacturing costs, panel weight, panel permeability and infused mechanical properties.

Gurit developed a new parametric core material design platform to help reduce blade production costs and shorten the time to market. With the new design platform, multiple optimisations can be run simultaneously, with many more variations being considered in a much shorter time.

For high speed communications its really important to have the support of a dedicated specialist company that can offer genuine fibre optic cable knowledge and expertise in the design and installation of fibre optic cable systems.

We offer a unique specialist service including fibre optic cable installation, direct termination, fusion splicing, O.T.D.R. testing and commissioning of fibre optic cable networks for the telecommunications and data communications markets in the UK and overseas.

We are creating forms using Adaptive Form Core Components and there is a use case in which we need to populate dropdown options using Backend API. To cater to this scenario, we have created a Form Data Model from swagger provided. However we are not able to populate the values of dropdown or configure dropdown options using rule editor.

One of the main challenges for fibre optic based sensing is robust operation in the mid-infrared (mid-IR) region. This is of major interest because this wavelength region is where the characteristic absorption spectra for a wide range of molecules lie. However, due to the high absorption of silica (above 2 μm), mid-IR sensors based on solid core silica fibres are not practical. Of the many alternatives to solid silica fibres, hollow core microstrutured optical fibres are being explored and show great promise. One relatively new fibre, the hollow core negative curvature fibre (NCF) is promising for novel optical devices due to the simple structure (in comparison to other microstructured fibres) in combination with a hollow core which enables low loss mid-IR infrared guidance in a silica based fibre. In this paper, an all silica NCF that is post-processed with a fs laser, in order to increase access to the hollow core, is presented with acceptable loss and significant potential for mid-IR gas sensing.

N2 - One of the main challenges for fibre optic based sensing is robust operation in the mid-infrared (mid-IR) region. This is of major interest because this wavelength region is where the characteristic absorption spectra for a wide range of molecules lie. However, due to the high absorption of silica (above 2 μm), mid-IR sensors based on solid core silica fibres are not practical. Of the many alternatives to solid silica fibres, hollow core microstrutured optical fibres are being explored and show great promise. One relatively new fibre, the hollow core negative curvature fibre (NCF) is promising for novel optical devices due to the simple structure (in comparison to other microstructured fibres) in combination with a hollow core which enables low loss mid-IR infrared guidance in a silica based fibre. In this paper, an all silica NCF that is post-processed with a fs laser, in order to increase access to the hollow core, is presented with acceptable loss and significant potential for mid-IR gas sensing.

AB - One of the main challenges for fibre optic based sensing is robust operation in the mid-infrared (mid-IR) region. This is of major interest because this wavelength region is where the characteristic absorption spectra for a wide range of molecules lie. However, due to the high absorption of silica (above 2 μm), mid-IR sensors based on solid core silica fibres are not practical. Of the many alternatives to solid silica fibres, hollow core microstrutured optical fibres are being explored and show great promise. One relatively new fibre, the hollow core negative curvature fibre (NCF) is promising for novel optical devices due to the simple structure (in comparison to other microstructured fibres) in combination with a hollow core which enables low loss mid-IR infrared guidance in a silica based fibre. In this paper, an all silica NCF that is post-processed with a fs laser, in order to increase access to the hollow core, is presented with acceptable loss and significant potential for mid-IR gas sensing.

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