Products Homeアクロマティック複レンズペア、ARコーティング:400~700 nm
- Broadband AR Coating for 400 - 700 nm
- SM05- or SM1-Threaded Housing
- Mounts Engraved with Focal Lengths
and Magnification
MAP1075150-A
Please Wait
| General Specifications | |
|---|---|
| Design Wavelengths | 486.1, 587.6, and 656.3 nm |
| Focal Length Tolerance | ±1% |
| Reflectance (400 - 700 nm) | Ravg < 0.5% |
 Zemaxファイル |
|---|
| 下の型番横の赤いアイコン(資料)をクリックすると、各製品のZemaxファイルをダウンロードいただけます。また、こちらからは当社の全てのZemaxファイルの一括ダウンロードが可能です。 |
特長
- 400~700 nmまたは650~1050 nmの広帯域ARコーティング
- 像転送、NA変換、像拡大に使用可能
- 像や開口数に合わせた異なる倍率
- 焦点距離がマーキングされているので識別が簡単
- SM05またはSM1ネジ切りがされているため、当社機構部品と接続可能
こちらのアクロマティックレンズペアは当社のマウントされていないアクロマティック複レンズ(接着固定)を2枚組み合わせた製品で、像転送、NA変換、像の拡大などにご利用いただけます。アクロマティック複レンズは無限共役比で使用するように設計されていますが、それらをペアで使用すると有限共役比の用途に適した光学系が得られます。有限共役比では、レンズペアから物体と像までの距離はともに有限になります。
これらのペアレンズは、それぞれ外径Ø17.8 mm(0.7インチ)とØ30.5 mm(1.2インチ)のSM05またはSM1のネジ筐体に収納されています。筐体には型番、焦点距離、ペアレンズの倍率が刻印されているので、識別が簡単です。レンズはマウント済みでガラス光学素子を扱う必要がないので、OEM用途としてもご利用いただけます。
仕様表の倍率でお使いいただくためには、焦点距離が短い方のレンズが付いている側が対象物に近づくように向きを設定してください。また、この逆の向きで使用する場合には、倍率も逆になります。2つのレンズが同じ焦点距離を持つ場合は、筐体のどちら側を対象物に向けても倍率は1:1となります。
マッチドアクロマティックペアは、シンプルなパッケージであり、かつ、従来の球面単レンズが像転送に使用される場合と比べて、優れた性能を発揮します。右側の画像の、最初の1組では、当社ロゴを結像するために2枚のLA1509-A N-BK7平凸レンズを最適化しています。次の1組では、マッチドアクロマティックペアMAP10100100-Aを使って同じロゴを結像していますが、明らかに画像は改善されています。このようにMAPシリーズの複レンズペアを使用すると、球面収差と色収差が最小限に抑えられるので、よりよい画質が得られます。
図 1. LA1509-Aペア
図2. MAP10100100-Aペア
焦点距離シフトのプロット図の例
下のプロット図は、レンズペアMAP107575-Aの焦点距離シフトvs波長です。このデータのエクセル版はこちらからダウンロードいただけます。
| Posted Comments: | |
gianlluca santagati
(posted 2024-07-04 16:06:56.36) Hello, Im using your HNLS008R laser.
I would like to know if I can use the Achromatic Doublet Pairs, AR Coated: 400 - 700 nm to focalize the laser beam.
If not, could you suggest a convergent lens ?
I need a focused beam (100 micron or less) from the convergent lens (or doublet)
Thank in advance ksosnowski
(posted 2024-07-09 05:04:44.0) Hello Gianlluca, thanks for reaching out to us. For a smaller spot size typically a shorter focal length lens and a larger input beam diameter are advantageous to achieving a better diffraction limited spot size. With the HNLS008R's beam size it may help to use a beam expander to allow for your longer working distance of 30cm. I have reached out directly to discuss this application in further detail. Han Xu
(posted 2024-05-06 12:09:14.317) We used the MAP1030100-A to do laser beam profiling. The laser beam was focused onto a phosphor screen placed at the object plane of the MAP, and the image of the laser spot was measured by a CCD camera placed at the image plane of the MAP. We found that, the image of laser spot always has a surrounding round shaped pedestal background with a diameter around 1.3 mm, and we didn't see such background if using other imaging lens. Therefore, it should be originated from the MAP. Can you please suggest why there is such a pedestal and is it possible to remove it? Thank you! cdolbashian
(posted 2024-05-10 03:59:51.0) Thank you for reaching out to us with this troubleshooting inquiry. I have contacted you directly to discuss your experimental design, as well as some of the images you are seeing with this unexpected artefact. For future troubleshooting inquiries, please feel free to reach out to your local support team via email, as we are able to share photos and diagrams with grater ease. user
(posted 2024-04-04 09:52:33.82) Is it possible to adjust the distance of the two lenses? If the distance is different from the correct tc value, will it be a spherical aberration?
Thanks! cdolbashian
(posted 2024-04-26 02:48:01.0) Thank you for reaching out to us with this inquiry! In simulation, changing the spacing from 5-20mm, only results in the spherical aberration increasing by ~1%. In this sense the Spherical aberration correction is fairly robust with respect to the inter-lens spacing, especially on the order of few mm. Jonas Euchner
(posted 2023-10-17 07:07:13.497) I believe the Example Focal Length Shift Plot for the MAP107575-A is incorrect in the Performance tab. It lists the focal length shift in µm. After running the analysis in Oslo, with additional tests in TracePro, I believe the axis should be in mm not µm.
This is more in line with the performance observed in the lab, and more similar to the performance of the single AC254_75_A lens. If I am correct, please update the performance graph as it mislead us in believing this Steinhell lens has superior chromatic focal shift jdelia
(posted 2023-10-18 10:16:40.0) Thank you for pointing this out to us. You are correct, the y-axis of the graph in question should be in mm. We are looking into updating the graph accordingly. Syeda Aimen Abbasi
(posted 2022-11-10 11:15:03.67) Dear Sir/Madam,
We have the MAP103050-A lens. But the lens is mounted within the holder and is around 7.4mm from the edge of the holder. This is a concern for our optical design since we want our object to be as close to the proximal lens as possible (within 5mm).
Is there a way to reduce the distance from the lens to the tip of the holder to, say 1 or 2mm?
If not, are any other products that has the same lens, but does not have such a larger distance within the holder?
Thank you very much for your time! ksosnowski
(posted 2022-11-12 12:29:13.0) Hello Syeda, thanks for reaching out to Thorlabs. The distance from edge of lens to edge of housing can be found on the CAD drawing for each part. The housing itself is designed to properly space the pair of doublets, so they cannot be adjusted as in a standard lens tube. Your local tech support team is reaching out to discuss this application further. Alastair MacDowell
(posted 2020-02-24 19:07:41.98) I note the lack of a Field of View specification. How good are these lenses for imaging ? eg for the MAP107575-A llamb
(posted 2020-02-27 09:20:16.0) Thank you for your feedback. Most of the achromatic doublets are not designed with any field of view, so they are not ideal for strict imaging applications. We would recommend a camera lens like our MVL- series for imaging purposes in order to achieve a field of view. Intermediate images have a finite size, so a relay lens needs to be able to capture the off-axis ray bundles. khatoniar.mandeep
(posted 2019-01-12 14:00:19.113) Can these doublet pairs be used as a lens relay ? That is to mantain collimation of an already collimated beam or correct for beam divergences for collimated beams (4f system) ? YLohia
(posted 2019-04-04 09:06:48.0) Hello, thank you for contacting Thorlabs. These lenses can be used as a relay lenses, but not in collimated space. The spacing between the two lenses would have to be the sum of the focal lengths for this to be possible. It appears that you may be looking for a beam expander, as the divergence of a collimated beam is reduced as the beam diameter increases. tillsten
(posted 2017-07-05 13:14:07.06) Can the 30mm diameter doublets be used to focus the light from a non-collimated white light LED? tfrisch
(posted 2017-08-04 10:26:49.0) Hello, thank you for contacting Thorlabs. These pair of achromatic doublets would create a magnified image of the LED emitter when the first lens is one focal length from the LED. I will reach out to you directly to discuss your application. user
(posted 2015-03-15 01:06:26.497) Hello, are these usable to magnify a low power collimated beam? besembeson
(posted 2015-03-26 03:55:53.0) Response from Bweh at Thorlabs USA: These are typically used for image relay, NA conversion or image magnification. For magnification of collimated sources, you would need one of our beam expanders at the following link: http://www.thorlabs.us/navigation.cfm?guide_id=2023 tcohen
(posted 2012-03-28 11:31:00.0) Response from Tim at Thorlabs: Thank you for your feedback! I have contacted you with the focal length shift data and an OPD plot for spherical aberration. Simone.Rupp
(posted 2012-03-27 05:03:34.0) Dear Thorlabs team,
are there any data available that allow me to estimate the focal length shift due to chromatic aberration? For some other Thorlabs products (e.g. achromatic triplets) those data are available as excel files.
I'm especially interested in the MAP107575-A in a wavelength range from 500 or 600 nm to 700 nm.
If there are any numbers quantifying the effect of spherical aberrations, these would be interesting for me, too.
Thank you! apalmentieri
(posted 2009-10-13 14:25:42.0) A response from Adam at Thorlabs: I am currently checking with our optics division and hope to provide you with more information soon. I will respond to your email address and this feedback post. roberto.nesci
(posted 2009-10-13 14:02:21.0) how large is the corrected focal plane of this optical assembly?
Thank you
Roberto Nesci |
| Item # | Ma | f1 (mm) | f2 (mm) | fb1 (mm) | fb2 (mm) | tc (mm) | Dia (mm) | L (mm) | WD1 (mm) | WD2 (mm) | RMS Spot Sizeb | Lens Material | Theoretical Transmissionc | Ref. Dwg. | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Doublet 1 | Doublet 2 | ||||||||||||||
| MAP051919-A | 1:1 | 19.0 | 19.0 | 15.9 | 15.9 | 4.0 | 17.8 | 26.6 | 10.6 | 10.6 | 16.5 µm | N-BAF10/N-SF6HT |  |  | |
- 倍率
- 入射開口: 11.2 mm。設計波長: 486.1 nm、587.6 nm、656.3 nm。視野範囲(FOV): 0°。RMSスポットサイズは、軸上の点光源に対して計算され、各設計波長のスポットサイズの荷重和が最小になるまで対象物と像の距離を調整しています。この対象物/像の共役比における倍率は掲載されている値と必ずしも一致しません。
- をクリックしていただくと、レンズの透過率のプロット図やダウンロード可能なデータをご覧いただけます。
| Item # | Ma | f1 (mm) | f2 (mm) | fb1 (mm) | fb2 (mm) | tc (mm) | Dia (mm) | L (mm) | WD1 (mm) | WD2 (mm) | RMS Spot Sizeb | Lens Material | Theoretical Transmissionc | Ref. Dwg. | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Doublet 1 | Doublet 2 | ||||||||||||||
| MAP051925-A | 1:1.32 | 19.1 | 25.0 | 15.7 | 21.5 | 4.0 | 17.8 | 27.7 | 10.4 | 16.2 | 14.2 µm | N-BAF10/N-SF6HT | N-BAF10/N-SF10 | | |
| MAP052550-A | 1:2 | 25.0 | 50.0 | 21.5 | 47.2 | 4.0 | 17.8 | 27.3 | 16.1 | 41.3 | 10.2 µm | N-BAF10/N-SF10 | N-BK7/SF2 | | |
| MAP051950-A | 1:2.63 | 19.0 | 50.0 | 15.4 | 48.4 | 4.0 | 17.8 | 25.7 | 10.3 | 42.9 | 20.8 µm | N-BAF10/N-SF6HT | N-BK7/SF2 | | |
- 倍率
- 入射開口: 11.2 mm。設計波長: 486.1 nm、587.6 nm、656.3 nm。視野範囲(FOV): 0°。RMSスポットサイズは、軸上の点光源に対して計算され、各設計波長のスポットサイズの荷重和が最小になるまで対象物と像の距離を調整しています。 この対象物/像の共役比における倍率は掲載されている値と必ずしも一致しません。
- をクリックしていただくと、レンズの透過率のプロット図やダウンロード可能なデータをご覧いただけます。
| Item # | Ma | f1 (mm) | f2 (mm) | fb1 (mm) | fb2 (mm) | tc (mm) | Dia (mm) | L (mm) | WD1 (mm) | WD2 (mm) | RMS Spot Sizeb | Lens Material | Theoretical Transmissionc | Ref. Dwg. | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Doublet 1 | Doublet 2 | ||||||||||||||
| MAP103030-A | 1:1 | 30.0 | 30.0 | 22.8 | 22.8 | 6.0 | 30.5 | 44.2 | 17.8 | 17.8 | 70.7 µm | N-BAF10/N-SF6HT | | | |
| MAP104040-A | 1:1 | 40.0 | 40.0 | 32.8 | 32.8 | 4.0 | 30.5 | 38.7 | 28.0 | 28.0 | 63.7 µm | N-BK7/SF5 | | ||
| MAP105050-A | 1:1 | 50.2 | 50.2 | 43.4 | 43.4 | 4.1 | 30.5 | 38.4 | 37.8 | 37.8 | 21.2 µm | N-BAF10/N-SF10 | | ||
| MAP107575-A | 1:1 | 75.0 | 75.0 | 70.4 | 70.4 | 6.2 | 30.5 | 35.3 | 65.3 | 65.4 | 7.7 µm | N-BK7/SF5 | | ||
| MAP10100100-A | 1:1 | 100.0 | 100.0 | 97.4 | 97.2 | 4.0 | 30.5 | 27.6 | 92.0 | 92.0 | 6.5 µm | N-BK7/SF5 | | ||
- 倍率
- 入射開口: 22.9 mm。設計波長: 486.1 nm、587.6 nm、656.3 nm。視野範囲(FOV): 0°。RMSスポットサイズは、軸上の点光源に対して計算され、各設計波長のスポットサイズの荷重和が最小になるまで対象物と像の距離を調整しています。 この対象物/像の共役比における倍率は掲載されている値と必ずしも一致しません。
- をクリックしていただくと、レンズの透過率のプロット図やダウンロード可能なデータをご覧いただけます。
| Item # | Ma | f1 (mm) | f2 (mm) | fb1 (mm) | fb2 (mm) | tc (mm) | Dia (mm) | L (mm) | WD1 (mm) | WD2 (mm) | RMS Spot Sizeb | Lens Material | Theoretical Transmissionc | Ref. Dwg. | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Doublet 1 | Doublet 2 | ||||||||||||||
| MAP103040-A | 1:1.33 | 30.0 | 40.0 | 21.7 | 34.5 | 4.0 | 30.5 | 40.1 | 16.6 | 29.9 | 74.3 µm | N-BAF10/SF6HT | N-BK7/SF5 | | |
| MAP105075-A | 1:1.5 | 50.2 | 74.9 | 43.4 | 70.3 | 6.2 | 30.5 | 37.7 | 37.9 | 65.3 | 17.9 µm | N-BAF10/N-SF10 | N-BK7/SF5 | | |
| MAP103050-A | 1:1.67 | 30.0 | 50.2 | 22.3 | 43.4 | 5.5 | 30.5 | 41.8 | 16.7 | 38.4 | 68.0 µm | N-BAF10/N-SF6HT | N-BAF10/N-SF10 | | |
| MAP1050100-A | 1:2 | 50.2 | 100.1 | 43.4 | 97.2 | 3.8 | 30.5 | 32.6 | 37.9 | 91.9 | 23.4 µm | N-BAF10/N-SF10 | N-BK7/SF5 | | |
| MAP1075150-A | 1:2 | 75.0 | 150.0 | 70.2 | 146.6 | 2.9 | 30.5 | 30.9 | 65.1 | 141.2 | 9.1 µm | N-BK7/SF5 | | ||
| MAP103075-A | 1:2.5 | 30.0 | 75.0 | 21.7 | 73.8 | 4.0 | 30.5 | 37.9 | 16.7 | 68.5 | 88.6 µm | N-BK7/SF5 | N-BAF10/N-SF6HT | | |
| MAP1040100-A | 1:2.5 | 40.0 | 100.0 | 32.9 | 97.1 | 4.0 | 30.5 | 33.2 | 28.2 | 91.6 | 85.1 µm | N-BK7/SF5 | | ||
| MAP1030100-A | 1:3.33 | 30.0 | 100.0 | 21.8 | 97.2 | 4.0 | 30.5 | 35.0 | 16.7 | 91.7 | 114.7 µm | N-BK7/SF5 | N-BAF10/N-SF6HT | | |
- 倍率
- 入射開口: 22.9 mm。設計波長: 486.1 nm、587.6 nm、656.3 nm。視野範囲(FOV): 0°。RMSスポットサイズは、軸上の点光源に対して計算され、各設計波長のスポットサイズの荷重和が最小になるまで対象物と像の距離を調整しています。 この対象物/像の共役比における倍率は掲載されている値と必ずしも一致しません。
- をクリックしていただくと、レンズの透過率のプロット図やダウンロード可能なデータをご覧いただけます。
Additional アクロマティック複レンズペア
 400 - 700 nm アクロマティック複レンズペア |