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BP1064-100 バンドパスフィルター(CWL=1064nm、FWHM=100nm)

BP1064-100 バンドパスフィルター(CWL=1064nm、FWHM=100nm)

PN: SO3010078

通常価格 $45.00 USD
通常価格 セール価格 $45.00 USD
セール 売り切れ
配送料はチェックアウト時に計算されます。
中心波長 (CWL) // FWHM
光学密度 // ピーク透過率 (Tpk)
寸法

トランスミッションとODデータ

透過率曲線は標準的なものです。実際のデータはロットごとに異なる可能性があります。生の透過率および OD データを弊社にご請求いただけます。

製品ページのリンクをコピーし、 info@syronoptics.comにメールを送信して生データを入手してください。

発送と配送

在庫のある商品の場合、通常はご注文後5営業日以内に発送いたします。

カスタマイズ製品の場合、通常はご注文後4~8週間以内に発送いたします。

返品と返金

在庫商品は、受け取り後 7 日以内に返品することができます。

返却には一律35ドルの料金がかかります。

支払通知

支払いはクレジットカード、Apple Pay、Google Payでオンラインで行うことができます。

支払いを承認した直後に金額が差し引かれることはありません。確認のために生のデータを電子メールで共有し、確認後にのみ金額が差し引かれます。

200 ドル未満の金額については、商品を受け取ってから 15 日以内に支払いをリクエストできます。(NET 15)

The procedure will be as below after the order is submitted.

カスタムサイズ

60 x 60 mm 未満の寸法については、カスタム サイズが利用可能です。取り付けない場合、厚さは通常 0.5 ~ 3 mm の範囲になります。

より大きなサイズの詳細については、 info@syronoptics.comまでお問い合わせください。

Optical dicing refers to precision cutting processes used to segment optical materials, particularly those with specialized coatings, into smaller functional components while maintaining their structural and optical integrity. In the context of optical coating flats (flat substrates like glass, fused silica, or semiconductors coated with anti-reflective, dielectric, or other optical layers), dicing ensures these coated substrates meet exact dimensional requirements for applications in photonics, lasers, sensors, and semiconductor devices.

Methods

  • Saw Dicing: Diamond-coated blades for clean cuts with minimal chipping.
  • Laser Dicing: Non-contact ablation for delicate or brittle materials, reducing mechanical stress.
  • Plasma Dicing: Dry etching for ultra-fine features, ideal for advanced semiconductor wafers.

Price

Dicing Service will generally cost from $50 to $125 per piece. Depending on the accuracy and size you are requesting.

SKU:

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Fequently Asked Questions

Commonly Used Optical Threads

Common Type of Optical Threads

Thread Specification

Model

Description

SM05

0.535"-40

For 12.7 mm optical components or connections with SM05-related products

SM1

1.035"-40

For 25.4 mm optical components or connections with SM1-related products

SM30

M30.5×0.5

For 30 mm optical components or connections with SM30-related products

SM1.5

1.535"-40

For 38.1 mm optical components or connections with SM1.5-related products

SM2

2.035"-40

For 50.8 mm optical components or connections with SM2-related products

SM3

3.035"-40

For 76.2 mm optical components or connections with SM3-related products

S-Mount

M12×0.5

Industrial cameras and lenses

C-Mount

1.00"-32

Industrial cameras and lenses

T-Mount

M42×0.75


RMS (0.800"-36)

RMS

Standard thread for most microscopes, such as Olympus and other common brands

M32×0.75


Matches large-format objectives like apochromatic objectives for biology

M26×0.706


Suitable for Mitutoyo (Japan) and Sigma Koki (Japan) large-format objectives

M25×0.75


Suitable for Nikon (Japan) large-format objectives


Additional Notes:

  1. The "SM" thread series is widely used for securing optical components, with a pitch of 40 threads per inch (TPI). For example, SM1 = 1.035"-40, where the thread diameter is 1.035 inches, and the pitch is 40 TPI.
  2. Regarding standards for mounting optical components, a typical setup requires a drilled hole of approximately M10.5 × 0.5, with a thread depth of about 10.1 mm to accommodate a standard 10 mm optical component securely.

Why Thickness of Optical Filter will Vary

Optical Filter Thickness Variability

The thickness of an optical filter is not solely determined by its final optical properties, but can vary based on several factors:

Coating Design

Different designs can achieve similar optical properties with varying thicknesses

Multiple layers of different materials may be used

Layer thicknesses can range from thin to thick (10+ quarter-wave optical thickness)

Substrate Influence

Substrate material affects overall performance

Refractive index of substrate impacts coating requirements

Wavelength Considerations

Shorter wavelengths typically require thinner layers

Physical thickness of quarter-wave optical thickness (QWOT) varies with target wavelength

Performance Requirements

Specific optical properties influence design and thickness

High absorption in certain wavelengths may necessitate thicker coatings

Conslusion 

while optical filters may have the same final result, their thickness can vary significantly depending on the coating design, substrate, and specific application requirements.

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