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エッジパスフィルタ


  • Shortpass and Longpass Filters
  • May be Combined for Custom Bandpass Filtering
  • 0.01% Max Transmission in Rejection Region
  • Available in Kits

FEL1500

Engraving Indicates Recommended
Transmission Direction

FES0550

FEL0600

Related Items


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Edgepass Filter Drawing
IR Filter Mounted in Filter Mount
Click to Enlarge

固定リングを用いてフリップマウントTRF90(/M)に取り付けられたフィルタFEL-1500
 Longpass FiltersShortpass
Filters
Transmission RegionCut-on λ to 2200 nm (Min)0.7λ to Cut-off λ (Unless 0.7λ is < 400 nm, then 400 nm to Cut-off λ)
Rejection Region200 nm to Cut-on λ1.3 times Cut-off λ

特長

  • 外径:25.4 mm(1インチ)(開口:Ø21.0 mm)
  • フォトメトリ用のオーダーソーティングフィルタ
  • 不要な近傍光を除去する迷光およびトリムフィルタ
  • ラマン分光フィルタ
  • 天文学用途

ロングパスフィルタおよびショートパスフィルタは、スペクトルを分離する際に利用されます。これらのエッジパスフィルタには耐久性のある誘電体コーティングが施されているので、高品質な光学部品を使用する際に必要とされる表面クリーニングなどの取り扱いに耐えられます。このフィルタは基本的に1/4波長積層による構造で、スペクトルを分離するのに吸収ではなく干渉効果を使っています(透過率に関する情報は、「仕様」タブをご覧ください)。

色付きガラスフィルタと異なり、カットオフまたカットオン波長は、入射角が大きくなると短い波長にシフトします。入射角が0°から45°になると、中心波長は約10%短波長側にシフトします。この特長を利用して、カットオンまたはカットオフ波長位置の微調整を行なうことができます。また、当社のエッジパスフィルタは湿気を防ぐために密封されています。また、重ねることで希望のバンドパスフィルタを作ることができます。

注: こちらのページのエッジパスフィルタは蛍光用途向けに試験されておらず、お勧めいたしません。蛍光用途には当社のプレミアムエッジパスフィルタ をご覧ください。

アイコンについて
 info icon下記の表内にあるこのアイコンをクリックしていただくことで、対応するフィルタの透過率と光学濃度のデータを記載してあるウィンドウを開くことができます。

各フィルタは、黒色アルマイト加工が施され、設計伝播方向を示す矢印が刻印されたリングに取り付けられています。このリングが付いていることで取扱いがしやすく、散乱も制限するので透過阻止性能(OD値)も向上します。このフィルタは、当社のフィルターマウントやホイールに取り付けることができます。マウントにはネジ切り加工が施されていないので、このフィルタを当社の内ネジ付きSM1レンズチューブに取り付ける際は、Ø25.4 mm(Ø1インチ)固定リングが必要になります。このフィルタはエポキシ樹脂で接合された複数のガラス層と取付リングで構成されており、フィルタをそのマウントから取り除くことはお勧めしていません。ガラスの層は、誘電体コーティングを空気から保護するために必要です。空気にさらされるとフィルタの透過率は著しく減少します。

これらのロングパスフィルタとショートパスフィルタはキットでも販売しています。エッジパスフィルタのカスタム仕様のお見積もりに関しては、当社までお問い合わせください。イメージングなど、波面に対する要求が厳しい用途には、当社のプレミアムエッジパスフィルタをご検討ください。

 Longpass FiltersShortpass Filters
Transmission RegionCut-on λ to 2200 nm Minimum0.7λ to Cut-off λ
(Unless 0.7λ is < 400 nm, Then 400 nm to Cut-off λ)
Transmission at Peaka400 - 700 nm, 80%
750 - 1000 nm, 75%
> 1000 nm, 70%
550 - 1000 nm, 80%
< 550 nm, 70%
Cut-On or Cut-Off Tolerance
(Δλ @ 50% of Peak)
±3 nm (400 to 750 nm)
±15 nm (800 to 1500 nm)
±3 nm (450 to 750 nm)
±15 nm (800 to 1000 nm)
Rejection Region200 nm to Cut-On1.3 Times Cut-Off
Transmission in Rejection Region0.01% abs. (OD > 4.0)0.01% abs., 0.0001% avg. (OD > 4.0)
Cut-off Slope3%, OD = 0.3 to OD = 44-5%, OD = 0.3 to OD = 4
ConstructionImmersed Dielectric
Surface Quality (Scratch-Dig)80-50 per Mil-0-13830A
Substrate MaterialSoda Lime or Equivalent
Clear ApertureØ21.0 mm
Diameter1" (25.4 mm)
  • FEL0400では、450~2200 nmピーク時の透過率は70 %です。FEL0450の400~2200 nmピーク時透過率は70 %です。

光学濃度方程式:
Optical Density Equation

Bandpas Filter Layers
Click to Enlarge
この図に示されている層の数は実際のバンドパスフィルタ層の数を示すものではありません。また、図の寸法は実際とは異なります

バンドパス/エッジパスフィルタの構造

バンドパスあるいはエッジパスフィルタは、基板の表面に材質を幾層か積層して作られます。いくつかの誘電材料の積層の間にスペーサ層があるのが典型的な構造です。誘電材料の積層部分では、屈折率の高い誘電材料と低い誘電材料が交互に多数重なっています。誘電材料の積層を構成する各層の厚さはλ/4となりますが、ここでλは、バンドパスフィルタの中心波長(つまりフィルタの最も透過性の高い波長)です。スペーサ層は誘電材料の積層部の間に挟まっているわけですが、その厚さは(nλ)/2となります。ここでnは整数値です。スペーサ層は、色つきガラス、エポキシ、染料、金属層又は誘電材料層である場合があります。ファブリペロー型共振器では、各スペーサ層が誘電材料の積層部分に挟まれた構造になっています。取扱い易さと保護の目的でフィルタは金属リングにマウントされています。

フィルタ作用の概要

ファブリペローキャビティの干渉で強め合う条件により、中心波長およびその脇の小さな波長バンドが効率的に透過します。また、弱め合う条件により、パスバンド外の光を遮断します。しかし、パスバンドの両側の遮断波長範囲は狭くなります。フィルタの遮断波長範囲を増やすために、スペーサ層及び基盤には遮断範囲の広い材質が使われています。これらの材質はバンド外の入射光の透過を効率的に遮断しますが、パスバンド内のフィルタの透過率も低下します。

bandpass filter, forward versus backward transmission
上のプロットの測定にはフィルタFB800-10とFB800-40が使われています。

フィルタの方向

フィルタ端の刻印された矢印は、フィルタの推奨透過方向を示すために使われています。フィルタはどちらの側を光源に向けても機能しますが、コーティングされた側を光源に向けることをお勧めします。コーティングされた側を光源に向けることによって、基板や色付きガラスフィルタ層によるバンド外光の吸収によるバンド外光をブロックすることにより生じる熱の影響を最小に抑えることができます。右のプロット図は、強度の低い広帯域光でフィルタを照射し、波長の関数として透過率を計測して作成されたものです。フィルタの透過方向はフィルタを透過された光の強度とスペクトル自体にほとんど影響を与えないということが、右のプロット図からわかります。 前方入力と後方入力の間の僅かな偏差は、殆どの場合ジグ内でフィルタを取り除いたり、ひっくり返したり、交換したりする際に光の入射角が僅かにシフトすることから生じる誤差です。

フィルタは、コリメート光を垂直入力するように設計されています。非コリメート光や表面に対して垂直入射でない角度に照射される光の場合、中心波長(ピーク透過率に対応する波長)は低い波長へとシフトして、透過範囲(パスバンド)の形状も変化します。経験的には、入射角が0°から45°に変化すると中心波長は約10%短波長側にシフトします。この特性を利用して、カットオンまたはカットオフ波長を精密にチューニングできます。

フィルタの温度

バンドパスフィルタ上の中心波長は、フィルタの温度を変えることによって僅かに(フィルタの動作範囲で約1 nm)チューニングすることができます。これは主に層の僅かな熱膨張や収縮によって起こります。


Posted Comments:
ersen.beyatli  (posted 2018-12-10 11:03:27.877)
Dear Sales Person For one of my project I am interested in a longpass filter with cut-on wavelength 2000 nm. Do you have or can you you build such king of filter and what will be the price of it. thanks ersen
YLohia  (posted 2018-12-12 12:27:24.0)
Hello Ersen, thank you for contacting Thorlabs. Custom optics can be requested by emailing techsupport@thorlabs.com. I will reach out to you directly to discuss the possibility of offering this.
f.jahantigh  (posted 2018-11-20 22:03:31.597)
With greetings For more information about your products, including FEL0750 and FES0800, I need more information, including optical intensity and total power which is collected at the aperture of the receiver. Many thanks.
nbayconich  (posted 2018-11-26 02:20:09.0)
Thank you for contacting Thorlabs. We provide Transmission & OD vs. wavelength plots which you can use to estimate the total power transmitted through these filters. The raw transmission data can be downloaded under the Transmission Data Icons.
chungpo  (posted 2018-06-27 13:32:29.32)
Do you have data for 45 deg (or any off normal) angle of incidence?
YLohia  (posted 2018-07-03 10:36:04.0)
Hello, I have reached out to you directly with that data.
r.kamarudheen  (posted 2017-06-21 02:17:22.663)
Hi, I'd like to know if you could make custom specified 500 mm short pass filters, with a transmission of 30-50% above 500 nm? Thanks
nbayconich  (posted 2017-06-27 02:31:16.0)
Thank you for contacting Thorlabs. I will reach out to you directly with more information on our custom capabilities.
lasereng  (posted 2016-12-28 17:39:30.783)
Hi, I'd like to know the damage threshold for this item, specifically FEL1050, and specifically at 1030nm. Can't seem to find it listed on this page. Thanks, Alex Rubin Photonics, LLC
tfrisch  (posted 2016-12-30 02:52:32.0)
Hello Alex, thank you for contacting Thorlabs. While we don't have any damage threshold testing for The FEL and FES series filters, I can say that the damage threshold would be low. The construction involves multiple layers of dielectric and absorbing layers connected by adhesive, and that adhesive would be limiting. I will reach out to you directly about alternatives such as our hard coated filters.
smou  (posted 2016-12-26 17:12:26.683)
I am interested in an FEL0900 and FEL1500 filter, but with 8.5mm diameter. Is that available on a custom order?
tfrisch  (posted 2016-12-27 03:04:40.0)
Hello, thank you for contacting Thorlabs. Our Technical Support team will reach out to you directly about these customs.
weilun  (posted 2016-08-10 13:37:43.727)
do you have the data about refection for the low transmission range
jlow  (posted 2016-08-17 10:28:52.0)
Response from Jeremy at Thorlabs: We only specify the transmission characteristic for these filters.
chuck.malone  (posted 2016-07-18 20:34:05.587)
what is the thickness of the filter FEL1350
aaron.b.potter  (posted 2016-01-08 11:16:33.923)
I am interested in an FEL1000 filter, but with 12.7mm diameter. Is that available on a custom order?
besembeson  (posted 2016-01-12 02:15:43.0)
Response from Bweh at Thorlabs USA: We can provide this to you as a custom item. I will contact you.
liangguanquan  (posted 2015-07-29 00:28:06.063)
I need a filter 2 inch in diameter, highly reflecting 532 nm and highly transmitting 390 nm. Do you have corresponding products? and price?
besembeson  (posted 2015-09-23 07:21:48.0)
Response from Bweh at Thorlabs USA: A suggestion you may consider for 45deg AOI will be the HBSY22 found at the following link: http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=7035
grovyle  (posted 2015-04-13 13:32:58.277)
Do you have these filters on 1/2" diameter? I'd like to use them inside a SM05L05, in between the sphere outlet and a screwed-in SM05SMA (which goes out to a fiber-coupled spectrometer).
besembeson  (posted 2015-04-21 06:24:51.0)
Response from Bweh at Thorlabs USA: We can provide this to you as a special item. I will follow-up by email for a quotation.
esoto  (posted 2015-04-10 17:24:15.83)
I need a short pass filter of 12,5 mm (0,5 inches) without frame or mounting (bare), which will cut beginning at 700 to 1100 nm or 750 to 1100 nm with OD more than 4 must have transmitance at least beginning from 350 nm do you have someting like that or similar?? thanks Ed
jlow  (posted 2015-04-16 01:25:02.0)
Response from Jeremy at Thorlabs: I will contact you directly about quoting this.
pallysally  (posted 2014-08-01 00:00:43.8)
can these filters be used for femtosecond laser?
besembeson  (posted 2014-08-07 03:53:02.0)
Response from Bweh E at Thorlabs: These would not be a great choice for short pulse systems. The base material for these filters is Soda Lime which is an economy grade material. Because of the potential for high power with the short pulses the premium edge pass filters would be a better choice. These can be found at the following link: http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=1860.
ben  (posted 2014-07-18 12:43:11.72)
Does this filter come in smaller sizes?
besembeson  (posted 2014-07-23 09:10:46.0)
A response from Bweh at Thorlabs USA: Hello, we certainly can provide smaller sizes for this filter. I will follow up by email to get your special requirements.
hussain  (posted 2014-05-20 04:47:27.983)
Would you pls tell me the transmission of FEL1200 from 4-5µm.
besembeson  (posted 2014-05-21 12:03:55.0)
This is a response from Bweh Esembeson at Thorlabs: Thanks for your inquiry. This filter doesn't transmit in the 4-5 micron range. The blocking optical density will be at least 2.
tuomas  (posted 2014-01-08 07:14:44.71)
What is the effective refractive index of your filters? I.e. the quantity N_e discussed in http://www.irf.se/~urban/avh/html/node17.html
jlow  (posted 2014-01-29 03:58:49.0)
Response from Jeremy at Thorlabs: The effective refractive index is generally used to estimate the central wavelength shift for angle tuning. It seems that you are looking to achieve a certain cut-off wavelength that we do not carry. We can do a transmission scan for you at different angles for a specific filter. I will get in contact with you to arrange this.
guoqiang.xia  (posted 2013-03-04 01:43:47.503)
The is a follow up on the previous question. The following data are a short section of transmission data of FEL0800, there are negative values, please verify your measurements. Thanks! 706 1.97E-05 705 -1.06E-06 704 5.04E-06 703 -4.71E-07 702 8.78E-06 701 1.32E-06 700 -4.57E-06
guoqiang.xia  (posted 2013-02-27 01:15:11.893)
About transmition data on your website, why are there negative values? Especially in the rejected region, since we are very concerned with the performance in the rejected region, so please clarify that at the OD 6-8 region, your measurements are not noise plagued.
sharrell  (posted 2012-06-20 10:17:00.0)
Response from Sean at Thorlabs: Thank you for your feedback on our longpass filters page. I am sorry that the filter was not available for purchase on the page, we have corrected the error and it is now available for purchase. The plot on the page has also been updated.
m.c.ashby  (posted 2012-06-20 08:00:13.0)
is the FEL0600 filter available? It is not on the list of order numbers and data shown is for FLE0650.
bdada  (posted 2012-01-10 12:22:00.0)
Response from Buki at Thorlabs: As a guideline, the power density should no more than 1W/cm2 for CW and 0.15J/cm2 (10ns, 532nm, .508mm) for pulsed lasers. The filter will not be able to withstand 1kW/cm^2. Please contact TechSupport@thorlabs.com if you have further questions.
sven  (posted 2012-01-09 15:14:42.0)
Is there any LIDT data for these filters? In my special case: Are the FEL0450/FES0500 filters able to withstand ~1kW/cm² cw?
bdada  (posted 2011-12-26 12:10:00.0)
Response from Buki at Thorlabs: Thank you for your feedback. The direction of the incident light does matter. Please refer to the excerpt from the "Tutorial" tab on the website. We will look into how to make this information clearer in our packaging and on our website. Please contact TechSupport@thorlabs.com if you have any questions. "An engraved arrow on the edge of the filter is used to indicate the recommended direction for the transmission of light through the filter. Although the filter will function with either side facing the source, it is better to place the coated side toward the source. This will minimize any thermal effects or possible thermal damage that blocking intense out-of-band radiation might cause due to the absorption of the out-of-band radiation by the substrate or colored glass filter layers."
user  (posted 2011-12-22 17:52:19.0)
Does the direction of the incident light matter, there seems to be an arrow on the outer edge of the filter, but nothing is said in the presentation or on the packaging.
jjurado  (posted 2011-08-31 18:35:00.0)
Response from Javier at Thorlabs to smuehlen: Dielectric coated filters such as our short and long pass filters do not affect the polarization state of the incident beam. However, at angles of incidence greater than 0°, the parallel (p) and perpendicular (s) polarization components of light are filtered differently. This effect, which includes changes in the transmission profile and a shortening in the cut-on wavelength, become more pronounced as the angle of incidence increases. I will contact you directly with more information.
smuehlen  (posted 2011-08-30 11:23:15.0)
Do the filters have any influence on the polarization of the transmitted beam?
bdada  (posted 2011-04-15 16:55:00.0)
Response from Buki at Thorlabs: As a guideline, the power density should no more than 1W/cm2 for CW and 0.15J/cm2 (10ns, 532nm, .508mm) for pulsed lasers. Note that the amount of energy in the transmitting region and the blocking region should be considered. For example, the amount of energy the FEL1000 filter is subjected to at 1200nm (transmitted) will be more than the amount of energy it is subjected to at 800nm (absorbed). Please contact TechSupport@thorlabs.com if you have further questions.
jmod1g09  (posted 2011-04-15 16:15:20.0)
Hello, What is the maximum out of band (rejected/reflected) power density permited before damage?
jjurado  (posted 2011-04-14 13:56:00.0)
Response from Javier at Thorlabs to David de Castro Alves: Thank you very much for submitting your request. If the purpose of your application is to block the transmission of light at the harmonic wavelength and pass light at the fundamental wavelength, then the FEL0700 longpass filter would work, with a transmission of ~81% at 1232 nm. Alternatively, you can use a shortpass dichroic mirror such as our DMSP1000, which has reflection band of 1020-1550 nm with (Ravg > 90%) and a transmission band of 520-985 nm (Tavg > 90%). Here is the link for this mirror: http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=3313&pn=DMSP1000 I will contact you directly for further support.
dmvalves  (posted 2011-04-14 16:20:36.0)
Hi, I need to remove the following wavelength 1232nm from is second harmonic 616nm. In the filter datasheet there are no information about the 1232nm transmission. It is possible to tell me the transmission to the fundamental wavelength (1232nm)? Best regards, David de Castro Alves
jjurado  (posted 2011-02-07 09:56:00.0)
Response from Javier at Thorlabs to Pramod: Thank you very much for contacting us with your request. We are currently in the process of adding raw data for most of our optics products as a standard across our entire website. This includes all of our interference filters. In the meantime, please contact our Technical Support department at techsupport@thorlabs.com so that we can send you these files directly. We can also provide these filter unmounted.
user  (posted 2011-02-04 18:38:25.0)
I will greatly appreciate transmission data for FEL1050, FEL1100, FEL1150, FEL1200, FEL1250, FEL1300, FEL1350, FEL1400, FEL1450, and FEL1500 in the range 900nm to 1800nm. I already have these filters, and would like to have another set without mounts. Pramod
pkkhulbe  (posted 2011-02-04 18:37:33.0)
I will greatly appreciate transmission data for FEL1050, FEL1100, FEL1150, FEL1200, FEL1250, FEL1300, FEL1350, FEL1400, FEL1450, and FEL1500 in the range 900nm to 1800nm. I already have these filters Pramod
Thorlabs  (posted 2010-11-05 09:52:08.0)
Response from Javier at Thorlabs to Tristan: I will send you this information shortly.
tristan.deborde  (posted 2010-11-05 01:43:16.0)
Can I please get transmission data on the FEL1000 for a wavelength range going from 400 to 2000 nm?
Thorlabs  (posted 2010-10-27 16:12:16.0)
Response from Javier at Thorlabs to Tristan: I will contact you directly with this information.
tristan.deborde  (posted 2010-10-26 23:19:27.0)
Do you have more Transmission data for the FES1000 and FEL1000. Im interested in about 450 nm up to posted graph for FES1000 and out to 2000 nm for FEL1000 if possible?
Thorlabs  (posted 2010-10-15 18:13:40.0)
Response from Javier at Thorlabs to Angela: I will contact you directly with a quotation for this filter.
angelakyea  (posted 2010-10-15 10:41:50.0)
I want to purchase two of the FEL0400 long pass filter, What is the cost of both the product price and the shipping price? And how is the payment done please?
Thorlabs  (posted 2010-09-08 16:32:24.0)
Response from Javier at Thorlabs to bmangum: I will send you an Excel file with typical data for the transmission and optical density of the FEL0450 filter.
bmangum  (posted 2010-09-08 13:36:23.0)
I have an FEL0450. Is there a way of getting the ascii data? Also it is more helpful to have a plot of the optical density vs wavelength compared to % transmission.
Thorlabs  (posted 2010-07-09 17:46:27.0)
Response from Javier at Thorlabs to wwu: thank you for your feedback. As a general guideline, the central wavelength of the filter will shift to a lower wavelength by about 10% as you rotate the filter form 0 to 45 degrees. For the FEL0800, this translates into a total shift of ~80 nm. Also, the tranmission percentage decreases and the profile of the passband changes slightly.
wwu  (posted 2010-07-09 15:21:58.0)
What is the expected wavelength shift in cut-off frequency when one rotates the filter? Single nm? or tens of nm? My interest is specfically in the FEL0800 filter.
Adam  (posted 2010-05-14 08:21:35.0)
A response from Adam at Thorlabs to to vkhopov: As you rotate the filter from normal incidence, the cut off frequency will shift to lower wavelengths and broaden out.
Adam  (posted 2010-05-14 08:17:17.0)
A response from Adam at Thorlabs to xshen: We are inspecting the FEL1100 today. We will measure the transmission at 2100nm and send you the data.
xshen  (posted 2010-05-12 18:02:26.0)
Hello, we just have some quesitons about the longpass 1100 nm filters. We found that there is a big dip (almost cutoff) at the wavelength around 2100 nm. Would you please send me the transmission data from 1100 - 2200 nm?
klee  (posted 2009-11-30 17:00:45.0)
A response from Ken at Thorlabs to physics_nt: The "V" is indeed an indicator for the beam direction. It points with the laser.
physics_nt  (posted 2009-11-30 16:46:17.0)
I notice a V on the side of these is that an indicator of laser propagation direction? Should it point against the laser or with the laser or is this just a part number?
Tyler  (posted 2008-11-26 14:14:24.0)
A response from Tyler at Thorlabs to dasfda: We are always working toward improving the quality and type of content available to our customers through the web, so thank you for your suggestion. Our web development team and our optics quality control department are working on a method of providing all of the lot specific transmission measurements made directly to the customer via the our website. Although this functionality is not currently ready to release yet, we can send you via email the transmission data and plots for any of the filters that you are interested in. To receive this information, just email our tech support department with a list of filters (include the lot number engraved on the filter mount if available).
dasfda  (posted 2008-11-26 12:07:24.0)
Please give the transmission data in text or CSV format as well as the graphs. One file with the whole lot in would be very useful. Please include the full wavelength range (including the bits excluded from the graphs where the transmission is ~0). Graphs in db would also be useful. 25mm mounts (not 1") would be lovely.

ロングパスフィルタ

Item #Cut-On Wavelength (nm)Transmission Dataa
FEL0400400info
FEL0450450info
FEL0500500info
FEL0550550info
FEL0600600info
FEL0650650info
FEL0700700info
FEL0750750info
FEL0800800info
FEL0850850info
FEL0900900info
FEL0950950info
Item #Cut-On Wavelength (nm)Transmission Dataa
FEL10001000info
FEL10501050info
FEL11001100info
FEL11501150info
FEL12001200info
FEL12501250info
FEL13001300info
FEL13501350info
FEL14001400info
FEL14501450info
FEL15001500info
  • グラフの網掛け部分は、これらのフィルタをご使用になる際に推奨する波長範囲を示しています。ここに記載されているデータは典型値であって、ロット毎に性能のバラツキが生じる可能性がある点にご注意ください。この傾向は網掛け部分以外で特に顕著となります。
+1 数量 資料 型番 - ユニバーサル規格 定価(税抜) 出荷予定日
FEL0400 Support Documentation
FEL0400Ø1" Longpass Filter, Cut-On Wavelength: 400 nm
¥10,481
Today
FEL0450 Support Documentation
FEL0450Ø1" Longpass Filter, Cut-On Wavelength: 450 nm
¥10,481
Today
FEL0500 Support Documentation
FEL0500Ø1" Longpass Filter, Cut-On Wavelength: 500 nm
¥10,481
Today
FEL0550 Support Documentation
FEL0550Ø1" Longpass Filter, Cut-On Wavelength: 550 nm
¥10,481
Today
FEL0600 Support Documentation
FEL0600Ø1" Longpass Filter, Cut-On Wavelength: 600 nm
¥10,481
Today
FEL0650 Support Documentation
FEL0650Ø1" Longpass Filter, Cut-On Wavelength: 650 nm
¥10,481
Today
FEL0700 Support Documentation
FEL0700Ø1" Longpass Filter, Cut-On Wavelength: 700 nm
¥10,481
Today
FEL0750 Support Documentation
FEL0750Ø1" Longpass Filter, Cut-On Wavelength: 750 nm
¥10,481
Today
FEL0800 Support Documentation
FEL0800Ø1" Longpass Filter, Cut-On Wavelength: 800 nm
¥10,481
Today
FEL0850 Support Documentation
FEL0850Ø1" Longpass Filter, Cut-On Wavelength: 850 nm
¥10,481
Today
FEL0900 Support Documentation
FEL0900Ø1" Longpass Filter, Cut-On Wavelength: 900 nm
¥10,481
Today
FEL0950 Support Documentation
FEL0950Ø1" Longpass Filter, Cut-On Wavelength: 950 nm
¥10,481
Today
FEL1000 Support Documentation
FEL1000Ø1" Longpass Filter, Cut-On Wavelength: 1000 nm
¥10,481
Today
FEL1050 Support Documentation
FEL1050Ø1" Longpass Filter, Cut-On Wavelength: 1050 nm
¥10,481
3-5 Days
FEL1100 Support Documentation
FEL1100Ø1" Longpass Filter, Cut-On Wavelength: 1100 nm
¥10,481
Today
FEL1150 Support Documentation
FEL1150Ø1" Longpass Filter, Cut-On Wavelength: 1150 nm
¥10,481
3-5 Days
FEL1200 Support Documentation
FEL1200Ø1" Longpass Filter, Cut-On Wavelength: 1200 nm
¥10,481
Today
FEL1250 Support Documentation
FEL1250Ø1" Longpass Filter, Cut-On Wavelength: 1250 nm
¥10,481
Today
FEL1300 Support Documentation
FEL1300Ø1" Longpass Filter, Cut-On Wavelength: 1300 nm
¥10,481
Today
FEL1350 Support Documentation
FEL1350Ø1" Longpass Filter, Cut-On Wavelength: 1350 nm
¥10,481
3-5 Days
FEL1400 Support Documentation
FEL1400Ø1" Longpass Filter, Cut-On Wavelength: 1400 nm
¥10,481
Today
FEL1450 Support Documentation
FEL1450Ø1" Longpass Filter, Cut-On Wavelength: 1450 nm
¥10,481
3-5 Days
FEL1500 Support Documentation
FEL1500Ø1" Longpass Filter, Cut-On Wavelength: 1500 nm
¥10,481
Today

ショートパスフィルタ

Item #Cut-Off Wavelength (nm)Transmission Dataa
FES0450450info
FES0500500info
FES0550550info
FES0600600info
FES0650650info
FES0700700info
Item #Cut-Off Wavelength (nm)Transmission Dataa
FES0750750info
FES0800800info
FES0850850info
FES0900900info
FES0950950info
FES10001000info
  • グラフの網掛け部分は、これらのフィルタをご使用になる際に推奨する波長範囲を示しています。ここに記載されているデータは典型値であって、ロット毎に性能のバラツキが生じる可能性がある点にご注意ください。この傾向は網掛け部分以外で特に顕著となります。
+1 数量 資料 型番 - ユニバーサル規格 定価(税抜) 出荷予定日
FES0450 Support Documentation
FES0450Ø1" Shortpass Filter, Cut-Off Wavelength: 450 nm
¥10,481
Today
FES0500 Support Documentation
FES0500Ø1" Shortpass Filter, Cut-Off Wavelength: 500 nm
¥10,481
Today
FES0550 Support Documentation
FES0550Ø1" Shortpass Filter, Cut-Off Wavelength: 550 nm
¥10,481
Today
FES0600 Support Documentation
FES0600Ø1" Shortpass Filter, Cut-Off Wavelength: 600 nm
¥10,481
Today
FES0650 Support Documentation
FES0650Ø1" Shortpass Filter, Cut-Off Wavelength: 650 nm
¥10,481
Today
FES0700 Support Documentation
FES0700Ø1" Shortpass Filter, Cut-Off Wavelength: 700 nm
¥10,481
Today
FES0750 Support Documentation
FES0750Ø1" Shortpass Filter, Cut-Off Wavelength: 750 nm
¥10,481
Today
FES0800 Support Documentation
FES0800Ø1" Shortpass Filter, Cut-Off Wavelength: 800 nm
¥10,481
Today
FES0850 Support Documentation
FES0850Ø1" Shortpass Filter, Cut-Off Wavelength: 850 nm
¥10,481
Today
FES0900 Support Documentation
FES0900Ø1" Shortpass Filter, Cut-Off Wavelength: 900 nm
¥10,481
Today
FES0950 Support Documentation
FES0950Ø1" Shortpass Filter, Cut-Off Wavelength: 950 nm
¥10,481
Today
FES1000 Support Documentation
FES1000Ø1" Shortpass Filter, Cut-Off Wavelength: 1000 nm
¥10,481
Today

エッジパスフィルターキット

エッジパスフィルターキットには、外径25.4 mm(1インチ)のマウント付きショートパスまたはロングパスフィルタが含まれています。フィルタの筐体には型番と光の透過方向を示す矢印が刻印されています。フィルタは発泡緩衝材入りの保管ケースに収めて発送されますが、このケースはフィルタの整理・保管や物理的な衝撃からの保護などに役立ちます。下の表は各キットに含まれるフィルタの種類(とその仕様)を示しています。

Item #Filter IncludedCut-Off or Cut-On
Wavelengtha
Transmission/
OD Datab
Filter IncludedCut-Off or Cut-On
Wavelengtha
Transmission/
OD Datab
FKSP01FES0450450 ± 3 nminfoFES0700700 ± 3 nminfo
FES0500500 ± 3 nminfoFES0750750 ± 3 nminfo
FES0550550 ± 3 nminfoFES0800800 ± 15 nminfo
FES0600600 ± 3 nminfoFES0900900 ± 15 nminfo
FES0650650 ± 3 nminfoFES10001000 ± 15 nminfo
FKLP01-VISFEL0500500 ± 3 nminfoFEL0750750 ± 3 nminfo
FEL0550550 ± 3 nminfoFEL0800800 ± 15 nminfo
FEL0600600 ± 3 nminfoFEL0850850 ± 15 nminfo
FEL0650650 ± 3 nminfoFEL0900900 ± 15 nminfo
FEL0700700 ± 3 nminfoFEL0950950 ± 15 nminfo
FKLP01-IRFEL10001000 ± 15 nminfoFEL12501250 ± 15 nminfo
FEL10501050 ± 15 nminfoFEL13001300 ± 15 nminfo
FEL11001100 ± 15 nminfoFEL13501350 ± 15 nminfo
FEL11501150 ± 15 nminfoFEL14001400 ± 15 nminfo
FEL12001200 ± 15 nminfoFEL15001500 ± 15 nminfo
  • ショートパスフィルタにはカットオフ波長、ロングパスフィルタにはカットオン波長がそれぞれ対応します。波長公差Δλはピーク値の50%における値です。
  • More Info Icon をクリックすると、グラフやダウンロード可能なデータがご覧いただけます。グラフの網掛け部分は、これらのフィルタをご使用になる際に推奨する波長範囲を示しています。ここに記載されているデータは典型値であり、性能はロット毎に異なる可能性がありますのでご注意ください。その傾向はグラフの網掛け部分以外で特に顕著となります。
+1 数量 資料 型番 - ユニバーサル規格 定価(税抜) 出荷予定日
FKSP01 Support Documentation
FKSP01可視域ショートパスフィルターキット、マウント付き、10枚入
¥108,741
Today
FKLP01-VIS Support Documentation
FKLP01-VIS可視域ロングパスフィルターキット、マウント付き、10枚入
¥108,741
Today
FKLP01-IR Support Documentation
FKLP01-IR赤外域ロングパスフィルターキット、マウント付き、10枚入
¥108,741
Today

マウント付き光学素子用保管ケース

  • マウント付きØ25 mmならびにØ50 mmのNDフィルタ保管用
  • 光学素子を埃や傷から保護
  • スポンジがインサート成形されており光学素子を個別に保管

KT01とKT06はそれぞれマウント付きØ25 mmならびにØ50 mmの光学素子10枚を保管できるケースです。

+1 数量 資料 型番 - ユニバーサル規格 定価(税抜) 出荷予定日
KT01 Support Documentation
KT01マウント付きØ25 mm~Ø25.4 mm(Ø1インチ)円形光学素子用保管ケース、最大収納:10枚
¥12,450
Today
KT06 Support Documentation
KT06マウント付きØ50 mm~Ø50.8 mm(Ø2インチ)円形光学素子用保管ケース、最大収納:10枚
¥12,450
Today
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