Merge pull request #1 from everypinio/feature/try_fix_images

Remove all images

Author: RiByryn

src/content/docs/instruments-database/Balance Scales/Mettler Toledo/mt-standard-interface-communication-software.mdx

@@ -3,7 +3,6 @@ title: Connecting to MT Standard Interface Communication Software by Mettler Tol
 description: Instrument class to communicate with Mettler Toledo balances using the MT-SICS Standared Interface Command Set.
 keywords: [Balance Scales, Mettler Toledo, InstrumentKit] 
 slug: instruments-database/balance-scales/mettler-toledo/mt-standard-interface-communication-software 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1695707363/Instruments/Balance%20Scales/MT-Standard-Interface-Communication-Software/file_new.png
 sidebar:
     label: MT Standard Interface Communication Software 
 ---
@@ -16,15 +15,11 @@ Instrument class to communicate with Mettler Toledo balances using the MT-SICS S
 
 
 
-![MT Standard Interface Communication Software](https://res.cloudinary.com/dhopxs1y3/image/upload/v1695707363/Instruments/Balance%20Scales/MT-Standard-Interface-Communication-Software/file_new.png)
-
 Device Specification: [here](/instruments-database/all-instruments)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: METTLER TOLEDO</h2></summary>
 
-![METTLER TOLEDO](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692806124/Instruments/Vendor%20Logos/Mettler_Toledo.png)
-
 Mettler Toledo (NYSE: MTD) is a multinational manufacturer of scales and analytical instruments. It is the largest provider of weighing instruments for use in laboratory, industrial, and food retailing applications. The company also provides various analytical instruments, process analytics instruments, and end-of-line inspection systems. The company operates worldwide with 70% of net sales, derived in equal parts, from Europe and from the Americas. Asian business is included in the remaining 30%.[2] Mettler Toledo is headquartered in Switzerland and incorporated in the United States.[4]
 
 - Headquarters: Columbus, Ohio, USA

src/content/docs/instruments-database/Balance Scales/balance-scales-overview.mdx

@@ -22,12 +22,4 @@ import InstrumentThumbnail from 'src/components/InstrumentThumbnail';
 Balances, Scales and Weighing. Laboratory balances are used to accurately determine the mass or weight of an item or substance within a specific weight range and to a particular readability. They are typically used to measure the weight of smaller amounts of substances in grams, milligrams, or micrograms.
 </details> 
 
-<div className="flex flex-wrap">
-
-<InstrumentThumbnail 
-    path='balance-scales/mettler-toledo/mt-standard-interface-communication-software'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1695707363/Instruments/Balance%20Scales/MT-Standard-Interface-Communication-Software/file_new.png'
-    label='MT Standard Interface Communication Software'    
-/>
-
-</div>
+- [MT Standard Interface Communication Software](balance-scales/mettler-toledo/mt-standard-interface-communication-software)

src/content/docs/instruments-database/Cameras/Pco/PCO-pixelfly.mdx

@@ -3,7 +3,6 @@ title: Connecting to PCO Pixelfly by PCO in Python
 description: The pco.pixelfly™ 1.3 SWIR is a high-performance machine vision camera due to its special InGaAs image sensor which is sensitive in the shortwave infrared, near infrared and visible range of the electromagnetic spectrum.
 keywords: [Cameras, PCO, Instrumental] 
 slug: instruments-database/cameras/pco/PCO-pixelfly 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782434/Instruments/Cameras/PCO-Pixelfly/PCO-Pixelfly.jpg
 sidebar:
     label: PCO Pixelfly 
 ---
@@ -14,16 +13,11 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 
 The pco.pixelfly™ 1.3 SWIR is a high-performance machine vision camera due to its special InGaAs image sensor which is sensitive in the shortwave infrared, near infrared and visible range of the electromagnetic spectrum.
 
-
-![PCO Pixelfly](https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782434/Instruments/Cameras/PCO-Pixelfly/PCO-Pixelfly.jpg)
-
 Device Specification: [here](https://www.pco.de/fileadmin/user_upload/pco-product_sheets/FL_PCOPIXELFLY13SWIR_V101.pdf)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: PCO</h2></summary>
 
-![PCO](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692806161/Instruments/Vendor%20Logos/PCO.png)
-
 **PCO** is one of the leading manufacturers of scientific **cameras**: sCMOS & Highspeed **camera** systems, developed and produced in Kelheim Bavaria Germany.
 
 - Headquarters: Germany

src/content/docs/instruments-database/Cameras/Picam/pi-camera.mdx

@@ -3,7 +3,6 @@ title: Connecting to Pi Camera by Picam in Python
 description: The v2 Camera Module has a Sony IMX219 8-megapixel sensor (compared to the 5-megapixel OmniVision OV5647 sensor of the original camera).
 keywords: [Cameras, Picam, Instrumental] 
 slug: instruments-database/cameras/picam/pi-camera 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782640/Instruments/Cameras/Pi-Camera/Pi-Camera.jpg
 sidebar:
     label: Pi Camera 
 ---
@@ -15,15 +14,11 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 The v2 Camera Module has a Sony IMX219 8-megapixel sensor (compared to the 5-megapixel OmniVision OV5647 sensor of the original camera).
 
 
-![Pi Camera](https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782640/Instruments/Cameras/Pi-Camera/Pi-Camera.jpg)
-
 Device Specification: [here](https://www.raspberrypi.com/documentation/accessories/camera.html)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: PICAM</h2></summary>
 
-![PICAM](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692806122/Instruments/Vendor%20Logos/RaspberryPi.png)
-
 **Raspberry Pi** is a series of small single-board computers (SBCs) developed in the United Kingdom by the **Raspberry Pi** Foundation in association with Broadcom
 
 - Headquarters: UK

src/content/docs/instruments-database/Cameras/Pvcam/kinetix-sCMOS-all-cameras.mdx

@@ -3,7 +3,6 @@ title: Connecting to Kinetix sCMOS all_cameras by Pvcam in Python
 description: The Kinetix sCMOS delivers the highest speed and largest field of view with near-perfect 96% quantum efficiency
 keywords: [Cameras, Pvcam, Instrumental] 
 slug: instruments-database/cameras/pvcam/kinetix-sCMOS-all-cameras 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1692395146/Instruments/Cameras/Kinetix-sCMOS-all-cameras/file.png
 sidebar:
     label: Kinetix sCMOS all_cameras 
 ---
@@ -14,15 +13,11 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 
 The Kinetix sCMOS delivers the highest speed and largest field of view with near-perfect 96% quantum efficiency
 
-![Kinetix sCMOS all_cameras](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692395146/Instruments/Cameras/Kinetix-sCMOS-all-cameras/file.png)
-
 Device Specification: [here](https://www.photometrics.com/wp-content/uploads/2023/03/Kinetix-Datasheet-Rev-A3-08032023.pdf)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: PVCAM</h2></summary>
 
-![PVCAM](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692812958/Instruments/Vendor%20Logos/Teledyne_technologies.png)
-
 **Teledyne** provides enabling technologies to sense, transmit and analyze information for industrial growth markets.
 
 - Headquarters: USA

src/content/docs/instruments-database/Cameras/Thorlabs/cc126mu.mdx

@@ -3,7 +3,6 @@ title: Connecting to CC126Mu by Thorlabs in Python
 description: Kiralux 12.3 MP Monochrome CMOS Camera, Hermetically Sealed Cooled Package, USB 3.0 Interface, 1/4"-20 Taps
 keywords: [Cameras, Thorlabs, Instrumental] 
 slug: instruments-database/cameras/thorlabs/cc126mu 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782536/Instruments/Cameras/CC126Mu/CC126Mu.jpg
 sidebar:
     label: CC126Mu 
 ---
@@ -15,15 +14,11 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 Kiralux 12.3 MP Monochrome CMOS Camera, Hermetically Sealed Cooled Package, USB 3.0 Interface, 1/4"-20 Taps
 
 
-![CC126Mu](https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782536/Instruments/Cameras/CC126Mu/CC126Mu.jpg)
-
 Device Specification: [here](https://www.thorlabs.com/_sd.cfm?fileName=ITN004586-D02.pdf&partNumber=CC126MU)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: THORLABS</h2></summary>
 
-![THORLABS](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692126009/Instruments/Vendor%20Logos/Thorlabs.png)
-
 Thorlabs, Inc. is an American privately held optical equipment company headquartered in Newton, New Jersey. The company was founded in 1989 by Alex Cable, who serves as its current president and CEO. As of 2018, Thorlabs has annual sales of approximately $500 million.
 
 - Headquarters: USA

src/content/docs/instruments-database/Cameras/Thorlabs/thorlabs-dcu224c.mdx

@@ -3,7 +3,6 @@ title: Connecting to Thorlabs-DCU224C by Thorlabs in Python
 description: DCU224C - CCD Camera, 1280 x 1024 Resolution, Color, USB 2.0
 keywords: [Cameras, Thorlabs, Instrumental] 
 slug: instruments-database/cameras/thorlabs/thorlabs-dcu224c 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782595/Instruments/Cameras/Thorlabs---DCU224C/Thorlabs---DCU224C.jpg
 sidebar:
     label: Thorlabs-DCU224C 
 ---
@@ -14,15 +13,11 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 
 DCU224C - CCD Camera, 1280 x 1024 Resolution, Color, USB 2.0 
 
-![Thorlabs-DCU224C](https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782595/Instruments/Cameras/Thorlabs---DCU224C/Thorlabs---DCU224C.jpg)
-
 Device Specification: [here](https://www.thorlabs.com/_sd.cfm?fileName=ITN000493-D02.pdf&partNumber=DCU224C)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: THORLABS</h2></summary>
 
-![THORLABS](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692126009/Instruments/Vendor%20Logos/Thorlabs.png)
-
 Thorlabs, Inc. is an American privately held optical equipment company headquartered in Newton, New Jersey. The company was founded in 1989 by Alex Cable, who serves as its current president and CEO. As of 2018, Thorlabs has annual sales of approximately $500 million.
 
 - Headquarters: USA

src/content/docs/instruments-database/Cameras/cameras-overview.mdx

@@ -22,36 +22,8 @@ import InstrumentThumbnail from 'src/components/InstrumentThumbnail';
 Machine vision (MV) is the technology and methods used to provide imaging-based automatic inspection and analysis for such applications as automatic inspection, process control, and robot guidance, usually in industry
 </details> 
 
-<div className="flex flex-wrap">
-
-<InstrumentThumbnail 
-    path='cameras/pco/PCO-pixelfly'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782434/Instruments/Cameras/PCO-Pixelfly/PCO-Pixelfly.jpg'
-    label='PCO Pixelfly'    
-/>
-
-<InstrumentThumbnail 
-    path='cameras/thorlabs/cc126mu'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782536/Instruments/Cameras/CC126Mu/CC126Mu.jpg'
-    label='CC126Mu'    
-/>
-
-<InstrumentThumbnail 
-    path='cameras/thorlabs/thorlabs-dcu224c'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782595/Instruments/Cameras/Thorlabs---DCU224C/Thorlabs---DCU224C.jpg'
-    label='Thorlabs-DCU224C'    
-/>
-
-<InstrumentThumbnail 
-    path='cameras/pvcam/kinetix-sCMOS-all-cameras'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1692395146/Instruments/Cameras/Kinetix-sCMOS-all-cameras/file.png'
-    label='Kinetix sCMOS all_cameras'    
-/>
-
-<InstrumentThumbnail 
-    path='cameras/picam/pi-camera'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782640/Instruments/Cameras/Pi-Camera/Pi-Camera.jpg'
-    label='Pi Camera'    
-/>
-
-</div>
+- [PCO Pixelfly](cameras/pco/PCO-pixelfly)
+- [CC126Mu](cameras/thorlabs/cc126mu)
+- [Thorlabs-DCU224C](cameras/thorlabs/thorlabs-dcu224c)
+- [Kinetix sCMOS all_cameras](cameras/pvcam/kinetix-sCMOS-all-cameras)
+- [Pi Camera](cameras/picam/pi-camera)

src/content/docs/instruments-database/Coincidence Counters/Qubitekk/cc1.mdx

@@ -3,7 +3,6 @@ title: Connecting to CC1 by Qubitekk in Python
 description: Qubitekk’s 2-channel Coincidence Counter provides researchers with a low-cost solution for nanosecond resolution coincidence counting. A third gating channel makes the counter suitable for use with pulsed sources.
 keywords: [Coincidence Counters, Qubitekk, InstrumentKit] 
 slug: instruments-database/coincidence-counters/qubitekk/cc1 
-image: https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782456/Instruments/Coincidence%20Counter/CC1/CC1.jpg
 sidebar:
     label: CC1 
 ---
@@ -14,14 +13,12 @@ import { Tabs, TabItem } from "@astrojs/starlight/components";
 
 Qubitekk’s 2-channel Coincidence Counter provides researchers with a low-cost solution for nanosecond resolution coincidence counting. A third gating channel makes the counter suitable for use with pulsed sources.
 
-![CC1](https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782456/Instruments/Coincidence%20Counter/CC1/CC1.jpg)
 
 Device Specification: [here](/instruments-database/all-instruments)
 
 <details style={{ marginTop: "15px"}}>
 <summary><h2 style={{display:'inline'}}>Manufacturer card: QUBITEKK</h2></summary>
 
-![QUBITEKK](https://res.cloudinary.com/dhopxs1y3/image/upload/v1692125997/Instruments/Vendor%20Logos/Qubitekk.png)
 
 Qubitekk provides reliable products for generating, preparing, distributing, detecting, correlating and storing photonic qubits. The hardware that is needed to strengthen American leadership in quantum computing, communications, and sensing solutions is being developed and manufactured in San Diego County, CA.
 

src/content/docs/instruments-database/Coincidence Counters/coincidence-counters-overview.mdx

@@ -22,12 +22,4 @@ import InstrumentThumbnail from 'src/components/InstrumentThumbnail';
 In quantum physics, coincidence counting is used in experiments testing particle non-locality and quantum entanglement. In these experiments two or more particles are created from the same initial packet of energy, inexorably linking/entangling their physical properties. Separate particle detectors measure the quantum states of each particle and send the resulting signal to a coincidence counter. In any experiment studying entanglement, the entangled particles are vastly outnumbered by non-entangled particles which are also detected; patternless noise that drowns out the entangled signal. In a two detector system, a coincidence counter alleviates this problem by only recording detection signals that strike both detectors simultaneously (or more accurately, recording only signals that arrive at both detectors and correlate to the same emission time). This ensures that the data represents only entangled particles.
 </details> 
 
-<div className="flex flex-wrap">
-
-<InstrumentThumbnail 
-    path='coincidence-counters/qubitekk/cc1'
-    img='https://res.cloudinary.com/dhopxs1y3/image/upload/v1691782456/Instruments/Coincidence%20Counter/CC1/CC1.jpg'
-    label='CC1'    
-/>
-
-</div>
+- [CC1](coincidence-counters/qubitekk/cc1)