top of page

Search results

10 items found for ""

  • Presentación | Radiotelescopio Upna

    Jocelyn Bell Burnell Radio Telescope The Jocelyn Bell Burnell Radio Telescope project aims to build and put into operation a radio astronomical observatory by students and staff of the Higher Technical School of Industrial Engineering, Computer Science and Telecommunications of the UPNA. In addition, we carry out another series of initiatives that have astronomy as a common thread and that appear in the sections of this page. WHAT IS A RADIO TELESCOPE? A radio telescope is a device that captures radio frequency waves from space. This makes it possible to determine the position of radio sources in the sky and study these objects at the frequency to which the radio telescope is tuned. Current radio telescopes consist of a wave collector, usually called an antenna, and a receiver. HOW DOES THE RADIO TELESCOPE WORK? Unlike a conventional telescope, which captures images in visible light, the radio telescope is a receiver for radio waves. Since many celestial bodies emit radiofrequency radiation, these radiations are more detectable in the radio region of the electromagnetic spectrum than in the visible light region. The study of all these radiations is called radio astronomy. Thanks to this little-known branch of astronomy, it is possible to see bodies and situations that are not possible to detect with optical astronomy: for example, detecting meteors, obtaining images of galaxies, listening to explosions around Jupiter, solar phenomena or the sound produced by the northern lights. In radio astronomy, in order to receive good signals, large antennas or groups of smaller antennas working in parallel must be used. Most radio telescopes use a satellite dish to amplify the waves. In the case of the UPNA, it measures 4.5m in diameter and has an approximate weight of 150 kilos. TECHNICAL DATA 4.5m diameter satellite dish. Approximate weight 150 Kg f/D ratio of 0.45 Metal mesh coating for 10GHz max work Horn ¼ wave focus for 1420 MHz (neutral hydrogen line) Preamplifier 23cm 29dB - 0.19dB S/N Alta-zimuthal rotor system SDR receiver. Remote control via internet network. Outdoor electrical cabinet with temperature control. WHAT CAN BE MEASURED WITH A RADIO TELESCOPE? ​ - The 21 cm line of neutral hydrogen can be measured, which emits at 1420 MHz. Its study provides basic information on the dynamics of galactic rotation, the spiral structure of our galaxy and the distribution of neutral hydrogen available in the galaxy. ​ - Pulsars. It is a star that has collapsed and has become very small, very dense and rotates cutting its own magnetic field generating radio waves. ​ - Satellites and space probes

  • Inicio | Radiotelescopio Upna

    Jocelyn Bell Burnell Radio Telescope Get closer to radio astronomy! The origins of the project: Through this project, the aim is to interrelate teaching, research and dissemination, involving different agents, so that, in its development and execution, not only researchers (from areas such as electrical engineering, telecommunications, mathematics, computer science, etc.), but also students, who, in the future, will be able to focus their final degree or master's thesis on the different aspects of the project. It is on the Agronomists' internship farm!! Through this project, the aim is to interrelate teaching, research and dissemination, involving different agents, so that, in its development and execution, not only researchers (from areas such as electrical engineering, telecommunications, mathematics, computer science, etc.), but also students, who, in the future, will be able to focus their final degree or master's thesis on the different aspects of the project. Know more LEARN MORE ABOUT ASTRONOMY AND RADIOASTRONOMY Stay informed of all the news about our radio telescope. From important announcements to information about upcoming events, this is where you'll find the most relevant articles about the Jocelyn Bell Burnell radio telescope. No posts published in this language yet Once posts are published, you’ll see them here.

  • Quiénes somos | Radiotelescopio Upna

    About us: We are passionate about astronomy and exploring the universe, and we are excited to share that passion with you. Our history dates back to [year of founding], when we decided to launch the radio telescope in tribute to the prominent astronomer Jocelyn Bell. ​ ​ ​ ​ ​ ​ Our mission is simple but powerful: we want to inspire curiosity and wonder about the cosmos and science in all ages and levels of knowledge. Through this website, we aim to bring the fascinating world of astronomy to a global audience. We believe in the importance of accurate and accessible science communication as a way to enrich public understanding of our place in the universe. Our mission: Silvia Diaz Lucas see more Jesus Palacian see more Rafael Ruiz see more Patricia Yanguas see more Our values: At the Jocelyn Bell Burnell Radio Telescope Platform, we are committed to the following values: Scientific precision Our priority is to offer accurate information based on scientific evidence. Diversity and inclusion We promote diversity and equal opportunities in science and astronomy. Inspiration We seek to inspire a love of science and the universe in people of all ages. Our objectives: 1 Provide high-quality educational content on astronomy and space science. 2 Celebrate the legacy of Jocelyn Bell and her contribution to astronomy. 3 Promote scientific curiosity and critical thinking.

  • Jocelyn Bell Burnell | Radiotelescopio Upna

    Jocelyn Bell Burnell In the vast canvas of space and the stars, there are people whose lives become amazing tales of exploration and discovery. One such fascinating story is that of Jocelyn Bell Burnell, a leading figure in space exploration who defied convention and left an indelible mark on the history of astronomy. ​ Join us on a journey to the heart of the galaxy and discover the life and legacy of Jocelyn Bell Burnell, a daring scientist who unraveled the secrets of the universe by identifying one of its most enigmatic phenomena: pulsars. Her story is a testament to resilience, passion and determination that has inspired countless people. ​ Photo of Jocelyn Bell during her doctoral period. Credit: https://www.astromia.com/biografias/susanbell.htm What was Jocelyn Bell Burnell's childhood and education like? Jocelyn Bell Burnell was born on July 15, 1943, in Belfast, Northern Ireland. From an early age, he showed a deep interest in the starry sky. In his childhood, he used to observe the stars with his father, who encouraged his curiosity about the cosmos. This early love of astronomy led her to study physics at the University of Glasgow, where she began to forge her path in science. Academic career: Describe your educational career and experiences at the university. After completing her physics degree in Glasgow, Jocelyn Bell Burnell embarked on a distinguished academic career. In 1965, while working as a graduate student at the University of Cambridge, he was part of the team that made one of the most important discoveries in the history of astronomy. Following her surprising discovery of pulsars, Jocelyn Bell Burnell continued working in the field of astronomy. Throughout his career, he held various academic and research positions at prestigious institutions. His later contributions included research on the structure of the Milky Way and star formation. ​ ​ ​ ​ In the 1960s, when Jocelyn Bell Burnell and her team made their discovery, astronomy was undergoing a revolution. His work took place at a time when humanity was expanding its understanding of the universe and seeking answers to fundamental questions about the nature of stars and space. ​ ​ His greatest discovery: Pulsars On November 28, 1967, while analyzing data from a radio telescope in Cambridge, Jocelyn Bell Burnell noticed a regular but unusual signal that repeated every 1.3 seconds. This signal was revealed to be the first known pulsar, a highly magnetized neutron star that emits radio radiation. This discovery was a revolutionary advance in the understanding of stars and astrophysics. ​ The discovery of pulsars brought Jocelyn Bell Burnell international recognition. Although she did not receive the Nobel Prize for this achievement (although her supervisor did), her contribution was widely celebrated and led to numerous honors and awards throughout her career. Photo of Jocelyn Bell with the discovered pulsar. Credit: courtesy of the Cavendish Laboratory. ​ This discovery was a revolutionary advance in the understanding of stars and astrophysics. ​ The discovery of pulsars brought Jocelyn Bell Burnell international recognition. Although she did not receive the Nobel Prize for this achievement (although her director did), her contribution was widely celebrated and led to her receiving numerous honors and awards throughout her career. Jocelyn Bell: Pioneer of Astronomy and the Discovery of Pulsars At the moment of inspiration ​ One night of observation in 1967, Jocelyn Bell and her team were analyzing radio frequency data when they noticed a pattern of extremely regular radio pulses. The surprise? These pulses came from a seemingly empty region of space. This led to the discovery of pulsars, highly magnetic neutron stars that periodically emit radiation. Pulsars: Spinning Neutron Stars Pulsars are like cosmic beacons, spinning at breakneck speeds and emitting detectable pulses of radiation. Some of them rotate hundreds of times per second, making them the most accurate clocks in the universe. Interestingly, pulsars are the result of the explosion and collapse of massive stars. The intense gravity causes the star to collapse into a tiny neutron star, and pulsars are the result. Inspiration and legacy ​ Jocelyn Bell's pioneering work not only revolutionized astronomy, but also inspired generations of young scientists. Her dedication and achievements in a historically male-dominated field highlight the importance of breaking down gender barriers in science. Today, women continue to make their mark in astronomy and all scientific disciplines, following the example of Jocelyn Bell. Our radio telescope in honor of Jocelyn Bell Burnell ​ The radio telescope of the Public University of Navarra (UPNA) is named after Jocelyn Bell Burnell in honor of her outstanding contribution to the field of astronomy and her fundamental role in the discovery of pulsars. The choice of her name for this scientific instrument symbolizes recognition of the work of a scientist who, challenging gender barriers, made a discovery that transformed our understanding of the universe. Jocelyn Bell Burnell not only left an indelible mark on astronomy, but she also became a symbol of inspiration for future generations, particularly women seeking to excel in scientific fields. By naming the radio telescope in her honor, UPNA pays tribute to her legacy and encourages the promotion of gender equality in science, remembering that passion, perseverance and dedication can open the doors to extraordinary discoveries.

  • Noticias | Radiotelescopio Upna

    NEWS AND EVENTS Our media section keeps users up to date on UPNA Radio Telescope news as well as developments in the online course industry. There is always something new, that's why we regularly update our page. If you have any questions or would like more information about a particular topic, please contact us. see more

  • Foro | Radiotelescopio Upna

    To see this working, head to your live site. Categories All Posts My Posts Foro ¡Te damos la bienvenida! Écha un vistazo y únete a las discusiones. Create New Post Discusiones generales Comparte historias, fotos y más subcategory-list-item.views subcategory-list-item.posts 3 Follow Preguntas y respuestas Obtén respuestas y comparte tu conocimiento subcategory-list-item.views subcategory-list-item.posts 0 Follow New Posts Silvia Diaz Sep 16, 2023 Te damos la bienvenida al foro Discusiones generales Comparte tus ideas. Usa Gif, videos, #hashtags y mucho más en tus entradas y comentarios. Empieza comentando abajo. Like 0 comments 0 Silvia Diaz Sep 16, 2023 Preséntate Discusiones generales Nos gustaría conocerte mejor. Dedica unos minutos para decir hola a la comunidad en los comentarios. Like 0 comments 0 Silvia Diaz Sep 16, 2023 Reglas del foro Discusiones generales Queremos que todos aprovechen al máximo la comunidad, por lo que te pedimos que leas y sigas las siguientes reglas: • Respeta a todos • Escribe entradas relevantes al tema del foro • No hagas spam Like 0 comments 0 Forum - Frameless

  • Foro | Radiotelescopio Upna

    To see this working, head to your live site. Categories All Posts My Posts Foro ¡Te damos la bienvenida! Écha un vistazo y únete a las discusiones. Create New Post Discusiones generales Comparte historias, fotos y más subcategory-list-item.views subcategory-list-item.posts 3 Follow Preguntas y respuestas Obtén respuestas y comparte tu conocimiento subcategory-list-item.views subcategory-list-item.posts 0 Follow New Posts Silvia Diaz Sep 16, 2023 Te damos la bienvenida al foro Discusiones generales Comparte tus ideas. Usa Gif, videos, #hashtags y mucho más en tus entradas y comentarios. Empieza comentando abajo. Like 0 comments 0 Silvia Diaz Sep 16, 2023 Preséntate Discusiones generales Nos gustaría conocerte mejor. Dedica unos minutos para decir hola a la comunidad en los comentarios. Like 0 comments 0 Silvia Diaz Sep 16, 2023 Reglas del foro Discusiones generales Queremos que todos aprovechen al máximo la comunidad, por lo que te pedimos que leas y sigas las siguientes reglas: • Respeta a todos • Escribe entradas relevantes al tema del foro • No hagas spam Like 0 comments 0 Forum - Frameless

  • Recursos | Radiotelescopio Upna

    USEFUL RESOURCES Welcome to our resources section We are excited to provide users with additional learning materials that will enrich their UPNA Radio Telescope educational experience. ADVICE FROM THE EXPERTS March 18, 2024 WHAT TO DO AND WHAT NOT TO DO? March 18, 2024 INDUSTRY SECRETS March 18, 2024

bottom of page