Science and technology in Israel

Jerusalem Technology Park

Science and technology in Israel is one of the country's most developed sectors. Israel is a world leader in fundamental scientific research as the percentage of Israelis engaged in scientific and technological inquiry, and the amount spent on research and development relative to its gross domestic product is one of the highest in the world.[1] Israel ranks fifth among the most innovative countries in the Bloomberg Innovation Index.[2][3] Israel ranks thirteenth in the world in scientific activity as measured by the number of scientific publications per million citizens.[4] It also has one of the highest per capita rates of patents filed.[5] In 2009, Israel's percentage of the total number of scientific articles published worldwide was almost 10 times higher than its percentage of the world's population.[6] The high technology industry has been successful due to Israel's disproportionately high number of engineers and scientists.[7] Israel has the highest number of scientists and technicians per capita in the world with 140 scientists and technicians per 10,000 employees. In comparison, the same is 85 per 10,000 in the United States and 83 per 10,000 in Japan.[8]

Israeli scientists and engineers have contributed to the advancement of the natural sciences, agricultural sciences, electronics, computer sciences, life sciences, robotics, and various fields of engineering. Israel is home to major players in the high tech industry and has one of the world's most technologically literate populations.[9] In 1998, Tel Aviv was named by Newsweek as one of the ten most technologically influential cities in the world.[10] Since 2000, Israel has been a member of EUREKA, the pan-European research and development funding and coordination organization, and held the rotating chairmanship of the organization for 2010–2011.[11][12] In 2010, the journalist David Kaufman, wrote that the high tech area of Yokneam, Israel has the "world's largest concentration of aesthetics-technology companies".[13] Google's Chairman Eric Schmidt complimented the country during a visit there, saying that “Israel has the most important high-tech center in the world after the US.”[14]

History

Jewish settlement in Mandate Palestine was ideologically motivated. Return to the homeland was perceived as contingent on a return to the soil. To establish the rural villages that formed the core of Zionist ideology and produce self-supporting Jewish farmers, agronomic experiments were conducted.[15] The foundations of agricultural research in Israel were laid by the teachers and graduates of the Mikveh Yisrael School, the country's first agricultural school, established by the Alliance Israelite Universelle in 1870.[16] On a field trip to Mount Hermon in 1906, the agronomist Aaron Aaronsohn discovered Triticum dicoccoides, or emmer wheat, believed to be the "mother of all wheat."[17] In 1909, he founded an agricultural research station in Atlit where he built up an extensive library and collected geological and botanical samples.[18] The Agricultural Station, founded in Rehovot in 1921, engaged in soil research and other aspects of farming in the country's difficult climatic conditions.[19] This station, which became the Agricultural Research Organization (ARO), is now Israel’s major institution of agricultural research and development.

Albert Einstein at the Technion; c. 1925

In 1912, the first cornerstone of the Technion - Israel Institute of Technology was laid at a festive ceremony in Haifa which was then occupied by the Ottoman Empire. The Technion would become a unique university worldwide in its claim to precede and create a nation. As Jews were often barred from Technical education in Europe,[20] the Technion claims to have brought the skills needed to build a modern state.[21]

Established before World War I, the Hebrew Health Station in Jerusalem, founded by Nathan Straus engaged in medical and public health research, operating departments for public hygiene, eye diseases and bacteriology.[22] The station manufactured vaccines against typhus and cholera, and developed methods of pest control to eliminate field mice. The Pasteur Institute affiliated with the station developed a rabies vaccine.[22] Departments for microbiology, biochemistry, bacteriology, and hygiene were opened at the Hebrew University of Jerusalem, founded on Mount Scopus in 1925. In 1936, Jewish workers in the center of the country donated two-days' pay toward the establishment of the "Hospital of Judea and Sharon," later renamed Beilinson Hospital. In 1938, Beilinson established the country's first blood bank.[23] The Rothschild-Hadassah University Hospital on Mount Scopus opened in 1939 and was the first teaching hospital and medical center in the country. Since renamed the Hadassah Medical Center, it has become a leader in medical research.[24]

WEIZAC, the first modern computer in the Middle East

Industrial research began at the Technion - Israel Institute of Technology, was also initiated at the Daniel Sieff Research Center (later the Weizmann Institute of Science), established in 1934 in Rehovot. The Dead Sea Laboratories opened in the 1930s. The first modern electronic computer in Israel and the Middle East, and one of the first large-scale, stored-program, electronic computers in the world, called WEIZAC, was built at the Weizmann Institute during 1954–1955, based on the Institute for Advanced Study (IAS) architecture developed by John von Neumann.[25] WEIZAC has been recognized by the IEEE as a milestone in the history of electrical engineering and computing.[26] IBM Israel, registered on June 8, 1950, was the country's first high-tech firm. The company, located on Allenby Street in Tel Aviv, assembled and repaired punch card machines, sorting machines and tabulators. In 1956, a local plant was opened to produce punch cards, and a year later, the first service center opened, offering computerized data processing services.[27]

Scientific and technological research in Israel was boosted by the appointment of a chief scientist for the Industry and Trade Ministry at the recommendation of a committee headed by Ephraim Katzir, later president of Israel.[28] The Israeli government provided grants that covered 50–80 percent of the outlay for new start-ups, with no conditions, no shareholding and no participation in management.[28] In the early 1980s, Control Data Corporation, a partner in Elron Electronic Industries, formed the country's first venture capital firm.[28]

Natural sciences

Environmental science

Further information: Solar power in Israel
A horizontal parabolic dish, with a triangular structure on its top.
The world's largest solar parabolic dish at the Ben-Gurion National Solar Energy Center.[29]

As of 2014, Israel leads the 2014 Global Cleantech Innovation Index.[30] The country’s lack of conventional energy sources has spurred extensive research and development of alternative energy sources and Israel has developed innovative technologies in the solar energy field.[31] Israel has become the world's largest per capita user of solar water heaters in the home. A new, high-efficiency receiver to collect concentrated sunlight has been developed, which will enhance the use of solar energy in industry as well.[32]

In a 2009 report by the CleanTech Group, Israel ranked number 5 clean tech country in the world.[33] The Arrow Ecology company has developed the ArrowBio process a patented system which takes trash directly from collection trucks and separates organic and inorganic materials through gravitational settling, screening, and hydro-mechanical shredding. The system is capable of sorting huge volumes of solid waste, salvaging recyclables, and turning the rest into biogas and rich agricultural compost. The system is used in California, Australia, Greece, Mexico, the United Kingdom and in Israel. For example, an ArrowBio plant that has been operational at the Hiriya landfill site since December 2003 serves the Tel Aviv area, and processes up to 150 tons of garbage a day.[34]

In 2010, Technion – Israel Institute of Technology established the Grand Technion Energy Program (GTEP). This multidisciplinary task-force brings together Technion's top researchers in energy science and technology from over nine different faculties. GTEP's 4-point strategy targets research and development of alternative fuels; renewable energy sources; energy storage and conversion; and energy conservation. GTEP is presently the only center in Israel offering graduate studies in energy science and technology to bring the energy skills and know-how to address the energy challenges of the future.

According to water experts, pipe leakage is one of the major problems confronting the global water supply today. For Israel, which is two-thirds desert, water-saving technologies are of critical importance. The International Water Association has cited Israel as one of the leaders in innovative methods to reduce "nonrevenue water," i.e., water lost in the system before reaching the customer.[35]

Space science

Further information: Israel Space Agency
Ofek-7 satellite launch through Shavit vehicle

During the 1970s and 1980s Israel began developing the infrastructure needed for research and development in space exploration and sciences. In November 1982, the Minister of Science and Technology, Prof. Yuval Ne'eman, established the Israel Space Agency (ISA), to coordinate and supervise a national space program as well as to conduct space, planetary, and aviation research. Because of geographical constraints, as well as safety considerations, the Israeli space program focuses on very small satellites loaded with payloads of a high degree of sophistication, and cooperation with other national space agencies.[36] The Technion Asher Space Research Institute plays a central role in educating the aerospace engineers of the next generation.[37] In 2009 Israel was ranked 2nd among 20 top countries in space sciences by Thomson Reuters agency.[38]

Israel launched its first satellite, Ofeq-1, from the locally built Shavit launch vehicle on September 19, 1988 and has made important contributions in a number of areas in space research, including laser communication, research into embryo development and osteoporosis in space, pollution monitoring, and mapping geology, soil and vegetation in semi-arid environments.[39]

Key projects include the TAUVEX telescope, the Tel Aviv University Ultra Violet Experiment, a UV telescope for astronomical observations which was developed in the 1990s to be accommodated on an Indian Space Research Organisation (ISRO) geo-synchronous satellite GSAT-4, for joint operation and use by Indian and Israeli scientists; the VENUS microsatellite, developed in collaboration with the French space agency, CNES, which will use an Israeli-developed space camera, electric space engine and algorithms; and MEIDEX (Mediterranean – Israel Dust Experiment), in collaboration with NASA.[40]

Ilan Ramon was Israel's first astronaut. Ramon was the space shuttle payload specialist on board the fatal STS-107 mission of Space Shuttle Columbia, in which he and the six other crew members were killed in a re-entry accident over the southern United States. Ramon had been selected as a Payload Specialist in 1997 and trained at the Johnson Space Center, Houston, Texas, from 1998 until 2003.[41] Among other experiments, Ramon was responsible for the MEIDEX project in which he was required to take pictures of atmospheric aerosol (dust) in the Mediterranean area using a multispectral camera designed to provide scientific information about atmospheric aerosols and the influence of global changes on the climate, and data for the Total Ozone Mapping Spectrometer (TOMS) and Moderate-Resolution Imaging Spectroradiometer (MODIS) instruments. Researchers from Tel Aviv University (TAU) were responsible for the scientific aspect of the experiment. The TAU team also worked with a US company, Orbital Sciences Corporation, to construct and test special flight instruments for the project.[42]

Physics

A team of 50 Israeli scientists work full-time at CERN, the European Organization for Nuclear Research, which operates the Large Hadron Collider in Switzerland. Israel was granted observer status in 1991, but is now in the process of being accepted as a full-fledged member. An Israeli delegation headed by President Shimon Peres visited the particle accelerator in 2011.[43]

Applied sciences

Engineering

Aerospace engineering

Further information: Israel Aerospace Industries
Gulfstream G280 transcontinental business jet was designed and is currently produced for Gulfstream Aerospace by Israel Aircraft Industries (IAI)

Aerospace engineering related to the country's defense needs has generated technological development with consequent civilian spin-offs. The Arava short take-off and landing (STOL) plane manufactured by Israel Aerospace Industries was the first aircraft to be produced in Israel, in the late 1960s, for both military and civilian uses.[44] This was followed by the production of the Westwind business jet[45] from 1965 to 1987, and later variants, the Astra[46] and the Gulfstream G100, which are still in active service.

Israel is among the few countries capable of launching satellites into orbit and locally designed and manufactured satellites have been produced and launched by Israel Aerospace Industries(IAI), Israel's largest military engineering company, in cooperation with the Israel Space Agency. The AMOS-1 geostationary satellite began operations in 1996 as Israel's first commercial communications satellite. It was built primarily for direct-to-home television broadcasting, TV distribution and VSAT services. AMOS-2 was launched in December 2003 and a further series of AMOS communications satellites (AMOS 2 – 5i) are operated or in development by the Spacecom Satellite Communications company, headquartered in Ramat-Gan, Israel. Spacecom provides satellite telecommuncations services to countries in Europe, the Middle East and Africa.[47] Another satellite, the Gurwin-II TechSAT, designed and manufactured by the Technion, was launched in July 1998 to provide communications, remote sensing and research services. EROS, launched in 2000, is a non-geostationary orbit satellite for commercial photography and surveillance services.[48]

Israel also develops, manufactures, and exports a large number of related aerospace products, including rockets and satellites, display systems, aeronautical computers, instrumentation systems, drones and flight simulators. Israel's second largest defense company is Elbit Systems, which makes electro-optical systems for air, sea and ground forces; drones; control and monitoring systems; communications systems and more.[49] The Technion - Israel Institute of Technology is home to the Asher Space Research Institute (ASRI), which is unique in Israel as a university-based center of space research. At ASRI, Israeli students designed, built and launched their own satellite: Gurwin TechSat.[50]

Agricultural engineering

Anaerobic digesters at Hiriya waste facility

Israel’s agricultural sector is characterized by an intensive system of production stemming from the need to overcome the scarcity in natural resource, particularly water and arable land, in a country where more than half of its area is desert. The growth in agricultural production is based on close cooperation of scientists, farmers and agriculture-related industries and has resulted in the development of advanced agricultural technology, water-conserving irrigation methods, anaerobic digestion, greenhouse technology, desert agriculture and salinity research.[51] Israeli companies also supply irrigation, water conservation and greenhouse technologies and know-how to other countries.[52][53][54]

The modern technology of drip irrigation was invented in Israel by Simcha Blass and his son Yeshayahu. Instead of releasing water through tiny holes, blocked easily by tiny particles, water was released through larger and longer passageways by using velocity to slow water inside a plastic emitter. The first experimental system of this type was established in 1959 when Blass partnered with Kibbutz Hatzerim to create an irrigation company called Netafim. Together they developed and patented the first practical surface drip irrigation emitter.[55] This method was very successful and had spread to Australia, North America and South America by the late 1960s.

Israeli farmers rely heavily on greenhouse technology to ensure a constant, year-round supply of high quality produce, while overcoming the obstacles posed by adverse climatic conditions, and water and land shortages. Technologies include computerized greenhouse climate control, greenhouse shading, irrigation, fertigation, greenhouse water recycling and biological control of plant disease and insects, allow farmers to control most production parameters. As a result, Israeli farmers successfully grow 3 million roses per hectare in season and an average of 300 tons of tomatoes per hectare, four times the amount harvested in open fields.[56]

Computer engineering

Technion - Israel Institute of Technology (faculty of Computer Science) building

Israeli companies excel in computer software and hardware development, particularly computer security technologies, semiconductors and communications. Israeli firms include Check Point, a leading firewall firm; Amdocs, which makes business and operations support systems for telecoms; Comverse, a voice-mail company; and Mercury Interactive, which measures software performance.[57] A high concentration of high-tech industries in the coastal plain of Israel has led to the nickname Silicon Wadi (lit: "Silicon Valley").[58] Both Israeli and international companies are based there. Intel[59] and Microsoft[60] built their first overseas research and development centers in Israel, and other high-tech multi-national corporations, such as IBM, Cisco Systems, and Motorola, have opened facilities in the country. Intel developed its dual-core Core Duo processor at its Israel Development Center in Haifa.[61] More than 3,850 start-ups have been established in Israel, making it second only to the US in this sector[62] and has the largest number of NASDAQ-listed companies outside North America.[63]

Optics, electro-optics, and lasers are significant fields and Israel produces fiber-optics, electro-optic inspection systems for printed circuit boards, thermal imaging night-vision systems, and electro-optics-based robotic manufacturing systems.[64] Research into robotics first began in the late 1970s, has resulted in the production of robots designed to perform a wide variety of computer aided manufacturing tasks, including diamond polishing, welding, packing, and building. Research is also conducted in the application of artificial intelligence to robots.[64]

Israel's Weizmann Institute of Science and Technion – Israel Institute of Technology are ranked among the top 20 academic institutions in the world in computer science.[65] An Israeli, CEO and president of M-Systems, Dov Moran, invented the first flash drive in 1998.[66]

Hydraulic engineering

Because rain falls only in the winter, and largely in the northern part of the country, irrigation and water engineering is vital to the country's economic survival and growth. Large-scale projects to direct water from rivers and reservoirs in the north, to make optimal use of groundwater, and to reclaim flood overflow and sewage have been undertaken. The largest such project was a national water distribution system called the National Carrier, completed in 1964, flowing from the country's biggest freshwater lake, the Sea of Galilee, to the northern Negev desert, through huge channels, pipes and tunnels.[67] The Ashkelon seawater reverse osmosis (SWRO) desalination plant was the largest in the world at the time it was built.[68] The project was developed as a BOT (Build-Operate-Transfer) by a consortium of three international companies: Veolia water, IDE Technologies and Elran.[69]

Military engineering

Further information: Rafael Advanced Defense Systems
IAI Harop, Israel is the world's largest exporter of drones.

Rejection of requests for weapons and technologies, arms sanctions and massive rearmament of the Arab countries prodded Israel into the development of a broad-based indigenous arms industry.[70] The Israel Defense Forces relies heavily on local military technology and high-tech weapons systems designed and manufactured in Israel. Israeli-developed military equipment includes small arms, anti-tank rockets and missiles, boats and submarines, tanks, armored vehicles, artillery, unmanned surface vehicles, aircraft, unmanned aerial vehicles (UAVs), air-defense systems, weapon stations and radar. An impetus for the development of the industry was the embargo on arms sales to Israel during the Six-Day War which prompted Israel Aircraft Industries (IAI), founded as a maintenance facility in 1953, to begin developing and assembling its own aircraft, including the Kfir, the Arava and the Nesher.[71]

Israeli soldier with Spike (missile)

Notable technology includes the Uzi submachine gun, introduced in 1954,[72] the country's main battle tank, the Merkava, and the jointly designed Israeli and U.S. Arrow missile, one of the world's only operational, advanced anti-ballistic missile systems.[73] The Iron Dome mobile air defense system developed by Rafael Advanced Defense Systems is designed to intercept short-range rockets and artillery shells. The system was created as a defensive countermeasure to the rocket threat against Israel's civilian population on its northern and southern borders, and was declared operational and initially deployed in the first quarter of 2011.[74] It is designed to intercept very short-range threats up to 70 kilometers in all-weather situations.[75] On April 7, 2011, the system successfully intercepted a Grad rocket launched from Gaza, marking the first time in history a short-range rocket was ever intercepted.[76]

Israel has also developed a network of reconnaissance satellites.[77] The Ofeq (lit. Horizon) series (Ofeq 1 – Ofeq 7) were launched between 1988 and 2007.[78] The satellites were carried by Shavit rockets launched from Palmachim Airbase. Both the satellites and the launchers were designed and manufactured by Israel Aerospace Industries (IAI), with Elbit Systems' El-Op division supplying the optical payload.

Israel also has the first all-around operational active defense system for tanks named Trophy, successfully intercepting anti tank missiles fired at Merkava tanks.

Life sciences

Given endoscopic capsule

Israel has an advanced infrastructure of medical and paramedical research and bioengineering capabilities. Biotechnology, biomedical, and clinical research account for over half of the country's scientific publications, and the industrial sector has used this extensive knowledge to develop pharmaceuticals, medical equipment and treatment therapies.[79]

Biotechnology

Israel has over 900 biotechnology and life sciences companies in operation throughout the country with nearly 50 to 60 formed each year. Many multinational corporations such as J&J, Perrigo, GE Healthcare and Phillips Medical have all established branches in Israel.[7]

Genetics and cancer research

Israeli scientists have developed methods for producing a human growth hormone and interferon, a group of proteins effective against viral infections. Copaxone, a medicine effective in the treatment of multiple sclerosis, was developed in Israel from basic research to industrial production. Genetic engineering has resulted in a wide range of diagnostic kits based on monoclonal antibodies, with other microbiological products.[79]

Advanced stem cell research takes place in Israel. The first steps in the development of stem cell studies occurred in Israel, with research in this field dating back to studies of bone marrow stem cells in the early 1960s. By 2006, Israeli scientists were leaders on a per capita basis in the number of articles published in scientific journals related to stem cell research.[80] In 2011, Israeli scientist Inbar Friedrich Ben-Nun led a team which produced the first stem cells from endangered species, a breakthrough that could save animals in danger of extinction.[81] In 2012, Israel was one of the world leaders in stem cell research, with the largest number of articles, patents and research studies per capita.[82]

Solomon Wasser, a professor from Haifa University, has found that Cyathus striatus is effective in treating pancreatic cancer based on early animal trials.[83]

Biomedical engineering

Sophisticated medical equipment for both diagnostic and treatment purposes has been developed and marketed worldwide, such as computer tomography (CT) scanners, magnetic resonance imaging (MRI) systems, ultrasound scanners, nuclear medical cameras, and surgical lasers. Other innovations include a controlled-release liquid polymer to prevent accumulation of tooth plaque, a device to reduce both benign and malignant swellings of the prostate gland, the use of botulin to correct eye squint, and a miniature camera encased in a swallowable capsule used to diagnose gastrointestinal disease,[79] developed by Given Imaging.[84]

In 2009, scientists from several European countries and Israel developed a robotic prosthetic hand, called SmartHand, which functions like a real one, allowing patients to write with it, type on a keyboard, play piano and perform other fine movements. The prosthesis has sensors which enable the patient to sense real feeling in its fingertips.[85] A new MRI system for identifying and diagnosing tumors developed at the Weizmann Institute has received approval from the U.S. Food and Drug Administration and is already being used in diagnosing breast and testicular cancer. The new system will replace invasive procedures and eliminate waiting time for the results.[86]

Pharmaceutical sciences

Teva Pharmaceutical Industries, headquartered in Petah Tikva, Israel, is the largest generic drug manufacturer in the world and one of the 20 largest pharmaceutical companies worldwide.[87] It specializes in generic drugs and active pharmaceutical ingredients and has developed proprietary pharmaceuticals such as Copaxone and Laquinimod for the treatment of multiple sclerosis, and Rasagiline for the treatment of Parkinson's disease.[88]

Research institutions and education

Weizmann Institute of Science particle accelerator

Israel has seven research universities: Bar-Ilan University, Ben-Gurion University of the Negev, the University of Haifa, Hebrew University of Jerusalem, the Technion – Israel Institute of Technology, Tel Aviv University and the Weizmann Institute of Science, Rehovot. Other scientific research institutions include the Volcani Institute of Agricultural Research in Beit Dagan, the Israel Institute for Biological Research and the Soreq Nuclear Research Center. The Ben-Gurion National Solar Energy Center at Sde Boker is an alternative energy research institute established in 1987 by the Ministry of National Infrastructures to study alternative and clean energy technologies.

Israeli universities are ranked among the top 50 academic institutions in the world in the following scientific disciplines: in chemistry (Technion);[89] in computer science (Weizmann Institute of Science, Technion, Hebrew University, Tel Aviv University);[65] in mathematics and natural sciences (Hebrew University, Technion)[90] and in engineering (Technion).[91]

In 2009, Mor Tzaban, an Israeli high school student from Netivot, won first prize in the First Step to Nobel Prize in Physics competition. In 2012, Yuval Katzenelson of Kiryat Gat won first prize with a paper entitled "Kinetic energy of inert gas in a regenerative system of activated carbon." The Israeli delegation won 14 more prizes in the competition: 9 Israelis students won second prize, one won third prize and one won fourth prize.[92]

Technology transfer

Research conducted at Israeli universities and institutes is shared with the private sector through technology transfer (TT) units.[93] Israel's first university TT unit, YEDA, was established by the Weizmann Institute of Science in the 1950s.[94] Research in such fields as arid and semi-arid zone agricultural engineering was transferred to kibbutzim and private farmers on a gratis basis and agricultural knowledge was shared with developing countries.[95]

In 1964, Yissum the technology transfer company of the Hebrew University of Jerusalem was founded.[96]

In 2007, the United Nations General Assembly's Economic and Financial Committee adopted an Israeli-sponsored draft resolution on agricultural technology transfer to developing countries. The resolution called on developed countries to make their knowledge and know-how accessible to the developing world as part of the UN campaign to eradicate hunger and dire poverty by 2015. The initiative is an outgrowth of Israel's many years of contributing its know-how to developing nations, especially Africa, in the spheres of agriculture, fighting desertification, rural development, irrigation, medical development, computers and the empowerment of women.[97]

Nobel Prize laureates

Six Israelis have won the Nobel Prize for Chemistry. In 2004, biologists Avram Hershko and Aaron Ciechanover of the Technion – Israel Institute of Technology were two of the three winners of the prize, for the discovery of ubiquitin-mediated protein degradation.[98] In 2009, Ada Yonath was a co-winner of the prize for her studies of the structure and function of the ribosome. She is the first Israeli woman to win a Nobel Prize.[99] Michael Levitt and Arieh Warshel received the Nobel Prize in Chemistry in 2013 for the development of multiscale models for complex chemical systems.[100]

Additionally, the 1958 Medicine laureate, Joshua Lederberg, was born to Israeli Jewish parents, and 2004 Physics laureate, David Gross, grew up partly in Israel, where he obtained his undergraduate degree. In the social sciences, the Nobel Prize for Economics was awarded to Daniel Kahneman in 2002, and to Robert Aumann of the Hebrew University in 2005.

Notable companies

See also

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