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Nouveau texte de la page, après la modification (new_wikitext) | <br>In the early 1900s the first laser was realized as a potential danger to the human body. Theodore Maiman, in 1905 stated the power of the beam as being like a Gillette razor blade. However, it's not known if the beam could cause any harm to anyone. Low-power lasers could cause damage to the eyesight. They may cause damage to the retina due to reflections on shiny surfaces. This light could cause localized burning or even permanent damage.<br><br><br>Lasers that make use of feedback through an optical cavity are the most well-known. This allows the creation of a beam light. The optical cavity consists of two mirrors situated at the opposite ends of a gain media. The gain medium bounces light off of the mirrors, amplifying the light. This process is repeated until the complete beam goes through the output coupler. It is an opaque mirror. The beam is able to be used in a variety of ways once it is created.<br><br><br>The brightness of the laser beam is not the only thing to consider. The size of the beam is measured from the end of the housing. There are many ways to define this measurement. It is known as the Gaussian beams are defined as having a width of 1/e 2 or 0.135 times the maximum intensity. A laser that has a larger diameter will create a more narrow and more concentrated beam than one that has less diffraction limits.<br><br><br>A laser's beam is a diameter that is measured at the exit face of the housing for the laser. You can measure this in many ways. For example an example, the definition of a Gaussian beam is one-third of 1/e2 (or 0.135) times its maximum intensity. These definitions are subjective so it's best to consult an expert prior to buying an laser. Most times, the maximum beam diameter will be smaller than the diffraction limit.<br><br><br>The beam's diameter is measured on the point [https://www.akilia.net/contact?message=This+is+the+right+webpage+for+anyone+who+wishes+%0D%0Ato+finnd+out+about+this+topic.+You+realize+%0D%0Aa+whoile+lot+its+almst+hard+to+argue+with+you+(not+that+I+personally+%0D%0Awill+need+to%E2%80%A6HaHa).+You+efinitely+putt+a+fresh+spin+on+a+topic+that%27s+been+written+about+%0D%0Afor+ages.+Wonderful+stuff%2C+just+excellent%21%0D%0A%0D%0AFeel+free+to+surf+to+my+website:+%5Bpanasonic+aaa+rechargeable+batteries-%3Ehttps://laserpointerstore.com/collections/laser-pointers%5D where can i buy a laser pointer] it exits the housing. The diameter of a Gaussian-shaped beam of laser is the distance between two points of the marginal distributions of their intensity. Therefore, a shorter wavelength corresponds to a wider diameter. The same is true for a Gaussian-shaped beam with a small-diffraction-limited intensity.<br><br><br>The beam of a flashlight spreads through a lens, creating a blurred cone. A laser's beam is much tighter and narrower and is consequently more precise. It's referred to as highly collimated since it's shorter and narrower than the beam of a flashlight. Its range is only a few inches and is focused on the object it is aiming at. It is also used to detect and track missiles.<br><br><br>The beam's diameter is the distance of the laser beam as measured from the housing's exit. The diameter of a beam is typically defined in several different ways. For example the term "gaussian light" means that a Gaussian light would have a diameter of 1 / 2. This is the equivalent of 0.135x the maximum intensity. The application can be examined with the wide-diameter. Apart from measuring the width of the laser, the intensity can be measured as well.<br><br><br>The frequency of the laser beam determines its intensity. Although it's often visible, it could be too strong for certain applications. The wavelength of light is not very long and often poorly correlated. Lasers with high power can produce bright spots. This is because the light can be altered due to the diffusion of an object. When a beam is weak is more difficult to see the target.<br><br><br>The laser beam's diameter is the length of the wavelength of the laser, which can be defined in a few different ways. The Gaussian beam's width is the distance between two points in an equilateral distribution. Their intensities are 1/e2, which is the most intense value. The measurement is used to determine the length of a laser. If the diameter is too large could pose a danger to the object or person and may cause the death of a person or object.<br><br><br>Lasers are intense lights that can be used to cut and shape objects. The laser emits light in one-wavelength. This is the reason why the beam is small. A beam's wavelength determines the sharpness of it and what it is able to be used for. The wavelength of the laser is its wavelength. Its frequency is the length of one wave.<br><br> |
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+<br>In the early 1900s the first laser was realized as a potential danger to the human body. Theodore Maiman, in 1905 stated the power of the beam as being like a Gillette razor blade. However, it's not known if the beam could cause any harm to anyone. Low-power lasers could cause damage to the eyesight. They may cause damage to the retina due to reflections on shiny surfaces. This light could cause localized burning or even permanent damage.<br><br><br>Lasers that make use of feedback through an optical cavity are the most well-known. This allows the creation of a beam light. The optical cavity consists of two mirrors situated at the opposite ends of a gain media. The gain medium bounces light off of the mirrors, amplifying the light. This process is repeated until the complete beam goes through the output coupler. It is an opaque mirror. The beam is able to be used in a variety of ways once it is created.<br><br><br>The brightness of the laser beam is not the only thing to consider. The size of the beam is measured from the end of the housing. There are many ways to define this measurement. It is known as the Gaussian beams are defined as having a width of 1/e 2 or 0.135 times the maximum intensity. A laser that has a larger diameter will create a more narrow and more concentrated beam than one that has less diffraction limits.<br><br><br>A laser's beam is a diameter that is measured at the exit face of the housing for the laser. You can measure this in many ways. For example an example, the definition of a Gaussian beam is one-third of 1/e2 (or 0.135) times its maximum intensity. These definitions are subjective so it's best to consult an expert prior to buying an laser. Most times, the maximum beam diameter will be smaller than the diffraction limit.<br><br><br>The beam's diameter is measured on the point [https://www.akilia.net/contact?message=This+is+the+right+webpage+for+anyone+who+wishes+%0D%0Ato+finnd+out+about+this+topic.+You+realize+%0D%0Aa+whoile+lot+its+almst+hard+to+argue+with+you+(not+that+I+personally+%0D%0Awill+need+to%E2%80%A6HaHa).+You+efinitely+putt+a+fresh+spin+on+a+topic+that%27s+been+written+about+%0D%0Afor+ages.+Wonderful+stuff%2C+just+excellent%21%0D%0A%0D%0AFeel+free+to+surf+to+my+website:+%5Bpanasonic+aaa+rechargeable+batteries-%3Ehttps://laserpointerstore.com/collections/laser-pointers%5D where can i buy a laser pointer] it exits the housing. The diameter of a Gaussian-shaped beam of laser is the distance between two points of the marginal distributions of their intensity. Therefore, a shorter wavelength corresponds to a wider diameter. The same is true for a Gaussian-shaped beam with a small-diffraction-limited intensity.<br><br><br>The beam of a flashlight spreads through a lens, creating a blurred cone. A laser's beam is much tighter and narrower and is consequently more precise. It's referred to as highly collimated since it's shorter and narrower than the beam of a flashlight. Its range is only a few inches and is focused on the object it is aiming at. It is also used to detect and track missiles.<br><br><br>The beam's diameter is the distance of the laser beam as measured from the housing's exit. The diameter of a beam is typically defined in several different ways. For example the term "gaussian light" means that a Gaussian light would have a diameter of 1 / 2. This is the equivalent of 0.135x the maximum intensity. The application can be examined with the wide-diameter. Apart from measuring the width of the laser, the intensity can be measured as well.<br><br><br>The frequency of the laser beam determines its intensity. Although it's often visible, it could be too strong for certain applications. The wavelength of light is not very long and often poorly correlated. Lasers with high power can produce bright spots. This is because the light can be altered due to the diffusion of an object. When a beam is weak is more difficult to see the target.<br><br><br>The laser beam's diameter is the length of the wavelength of the laser, which can be defined in a few different ways. The Gaussian beam's width is the distance between two points in an equilateral distribution. Their intensities are 1/e2, which is the most intense value. The measurement is used to determine the length of a laser. If the diameter is too large could pose a danger to the object or person and may cause the death of a person or object.<br><br><br>Lasers are intense lights that can be used to cut and shape objects. The laser emits light in one-wavelength. This is the reason why the beam is small. A beam's wavelength determines the sharpness of it and what it is able to be used for. The wavelength of the laser is its wavelength. Its frequency is the length of one wave.<br><br>
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Lignes ajoutées lors de la modification (added_lines) | <br>In the early 1900s the first laser was realized as a potential danger to the human body. Theodore Maiman, in 1905 stated the power of the beam as being like a Gillette razor blade. However, it's not known if the beam could cause any harm to anyone. Low-power lasers could cause damage to the eyesight. They may cause damage to the retina due to reflections on shiny surfaces. This light could cause localized burning or even permanent damage.<br><br><br>Lasers that make use of feedback through an optical cavity are the most well-known. This allows the creation of a beam light. The optical cavity consists of two mirrors situated at the opposite ends of a gain media. The gain medium bounces light off of the mirrors, amplifying the light. This process is repeated until the complete beam goes through the output coupler. It is an opaque mirror. The beam is able to be used in a variety of ways once it is created.<br><br><br>The brightness of the laser beam is not the only thing to consider. The size of the beam is measured from the end of the housing. There are many ways to define this measurement. It is known as the Gaussian beams are defined as having a width of 1/e 2 or 0.135 times the maximum intensity. A laser that has a larger diameter will create a more narrow and more concentrated beam than one that has less diffraction limits.<br><br><br>A laser's beam is a diameter that is measured at the exit face of the housing for the laser. You can measure this in many ways. For example an example, the definition of a Gaussian beam is one-third of 1/e2 (or 0.135) times its maximum intensity. These definitions are subjective so it's best to consult an expert prior to buying an laser. Most times, the maximum beam diameter will be smaller than the diffraction limit.<br><br><br>The beam's diameter is measured on the point [https://www.akilia.net/contact?message=This+is+the+right+webpage+for+anyone+who+wishes+%0D%0Ato+finnd+out+about+this+topic.+You+realize+%0D%0Aa+whoile+lot+its+almst+hard+to+argue+with+you+(not+that+I+personally+%0D%0Awill+need+to%E2%80%A6HaHa).+You+efinitely+putt+a+fresh+spin+on+a+topic+that%27s+been+written+about+%0D%0Afor+ages.+Wonderful+stuff%2C+just+excellent%21%0D%0A%0D%0AFeel+free+to+surf+to+my+website:+%5Bpanasonic+aaa+rechargeable+batteries-%3Ehttps://laserpointerstore.com/collections/laser-pointers%5D where can i buy a laser pointer] it exits the housing. The diameter of a Gaussian-shaped beam of laser is the distance between two points of the marginal distributions of their intensity. Therefore, a shorter wavelength corresponds to a wider diameter. The same is true for a Gaussian-shaped beam with a small-diffraction-limited intensity.<br><br><br>The beam of a flashlight spreads through a lens, creating a blurred cone. A laser's beam is much tighter and narrower and is consequently more precise. It's referred to as highly collimated since it's shorter and narrower than the beam of a flashlight. Its range is only a few inches and is focused on the object it is aiming at. It is also used to detect and track missiles.<br><br><br>The beam's diameter is the distance of the laser beam as measured from the housing's exit. The diameter of a beam is typically defined in several different ways. For example the term "gaussian light" means that a Gaussian light would have a diameter of 1 / 2. This is the equivalent of 0.135x the maximum intensity. The application can be examined with the wide-diameter. Apart from measuring the width of the laser, the intensity can be measured as well.<br><br><br>The frequency of the laser beam determines its intensity. Although it's often visible, it could be too strong for certain applications. The wavelength of light is not very long and often poorly correlated. Lasers with high power can produce bright spots. This is because the light can be altered due to the diffusion of an object. When a beam is weak is more difficult to see the target.<br><br><br>The laser beam's diameter is the length of the wavelength of the laser, which can be defined in a few different ways. The Gaussian beam's width is the distance between two points in an equilateral distribution. Their intensities are 1/e2, which is the most intense value. The measurement is used to determine the length of a laser. If the diameter is too large could pose a danger to the object or person and may cause the death of a person or object.<br><br><br>Lasers are intense lights that can be used to cut and shape objects. The laser emits light in one-wavelength. This is the reason why the beam is small. A beam's wavelength determines the sharpness of it and what it is able to be used for. The wavelength of the laser is its wavelength. Its frequency is the length of one wave.<br><br>
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